A01 Planned Research Group

1. T. Kimura, “Visualizing magnetoelectric domains in a metallic antiferromagnet”, The 14th APCTP Workshop on Multiferroics, Takeda-sentanchi Hall of Takeda-sentanchi Building, Tokyo, Japan, 2023/10/19-21, Invited
2. T. Kimura, “Symmetry-dependent magnetic, electric, and optical properties in ferroic and multiferroic materials”, The 26th Congress and General Assembly of the International Union of Crystallography (IUCr 2023), Melbourne Convention & Exhibition Centre, Melbourne, Australia, 2023/8/22-29, Invited
3. T. Kimura, “Manipulation of Crystallographic Chirality in Chiral and Ferroaxial Crystals”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
4. Y. Okamoto, H. Matsumoto, K. Yuchi, Y. Shinoda, Y. Yamakawa, D. Hirai, and K. Takenaka, “Superconductivity in Ternary Telluride Sc6MTe2 with 3d, 4d, and 5d Transition Metals”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
5. K. Kudo, “Non-monotonic variation of superconducting transition temperature in BaPtAs-BaPtSb solid solution”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
6. T. Kimura, “Circularly Polarized Resonant X-ray Diffraction of Multiferroic CuO”, RIXS/REXS workshop 2023, Sakura Hall, Tohoku University (Katahira campus), Sendai, Japan, 2023/8/2-4, Invited
7. T. Kimura, “Optical microscope imaging of antiferromagnetic domains via linear magnetoelectric effect”, International Conference on Strongly Correlated Electron Systems 2023（SCES2023）, Songdo ConvensiA, Incheon, Korea, 2023/7/2-7, Invited
8. Y. Okamoto, Y. Shinoda, H. Matsumoto, K. Yuchi, Y. Yamakawa, D. Hirai, and K. Takenaka, “Superconductivity in Ternary Telluride Sc6MTe2 with 3d, 4d, and 5d Transition Metals”, Quantum Materials and Topology 2023, Lahan Hotel, Phang, Korea, 2023/6/27-29
9. T. Kimura, “Design, synthesis, and characterization of ferroaxial materials”, 6th International Workshop on Complex Oxides, Anargyrios and Korgialenios School of Spetses, Spetses, Greece, 2023/6/12-17, Invited
10. Y. Okamoto, “新奇d電子系物質の開拓”, ISSPワークショップ「新物質研究の最前線：特徴的なアプローチが導く新物性・新機能」, 東京大学物性研究所, Kashiwa, Japan, Invited
11. Y. Okamoto, “Superconductivity in Ternary Telluride Sc6MTe2 with 3d, 4d, and 5d Transition Metals”, The Taiwan-Japan-Korea Symposium on Strongly Correlated Electron Systems (TJK-21), National Synchrotron Radiation Research Center (NSRRC), Hsinchu, Taiwan, 2023/4/6-7, Invited
12. T. Kimura, “Antiferromagnetic domain imaging via linear magnetoelectric effect”, The 21th Taiwan-Japan-Korea Symposium on Strongly Correlated Electron Systems (TJK21), National Synchrotron Radiation Research Center (NSRRC), Hsinchu, Taiwan, 2023/04/6-7, Invited

A01 Publicly Offered Research Group

1. J. Matsuno, “Spin Current Generation in Oxide Spintronics”, Materials Research Meeting 2023 (MRM2023), Kyoto International Conference Center, Kyoto, Japan, 2023/12/11-16, Invited
2. T. Katsufuji, “Orbital-ordered phase and nematic phase in spinel vanadates”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
3. J. Matsuno, “Spin current generation in 5d oxides”, 6th International Workshop on Complex Oxides, Anargyrios and Korgialenios School of Spetses, Spetses, Greece, 2023/6/12-17, Invited

B01 Planned Research Group

1. H. Wadati, “Spin dynamics in ferromagnetic and antiferromagnetic thin films studied by ultrafast lasers”, 第47回日本磁気学会学術講演会、Symposium：Optical control and time-resolved measurement of magnetic dynamics, Osaka University, Toyonaka, Japan, 2023/9/27-29, Invited
2. H. Wadati, “超短パルスレーザー照射による酸化物薄膜の磁化スイッチング”, 高崎量子応用研究所、第660回高崎研オープンセミナー, 高崎量子応用研究所　総合管理棟３階　多目的ホール（高崎市）/オンライン, 2023/8/30, Invited
3. T. Shibauchi, “Exotic pairing states with time-reversal symmetry breaking in FeSe-based nematic superconductors”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
4. T. J. Sato, “Multi-q spin texture in the hexagonal quantum magnet Yb3Ru4Al12”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
5. H. Hirori, “Spin switching by terahertz Floquet engineering using Tesla-class fields in antiferromagnets”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
6. H. Wadati, “Optically induced magnetization switching in NiCo2O4 thin films by using Ultrafast Lasers”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10

B01 Publicly Offered Research Group

1. Y. Ihara, R. Kumar, K. Miyakoshi, M. Oda, K. Ishida, “Microscopic coexistence between superconductivity and antiferromagnetism in excess oxygen La2CuO4+d”, Workshop on Magnetic Resonance of Correlated Electron Materials 2023, Dresden, Germany, 2023/9/17-22
2. K. Kuroda, “Emergence of multipole polaron and electronic anisotropy in the devil’s staircase of CeSb”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10, Invited
3. K. Matano, Guo-qing Zheng, “Manipulating the nematic director by magnetic fields in the spin-triplet superconducting states of CuxBi2Se3 and K2Cr3As3”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
4. Guoqing Zheng, “Tuning the nematic director in spin-triplet superconductors CuxBi2Se3 and K2Cr3As3”, Conference of Condensed Matter Physics (CCMP) 2023, Yangtze River Delta Physics Research Center, Liyang, China, 2023/08/6-11, Invited
5. T. Terashima, “Electronic structure studies on iron-based superconductor parent compounds via magnetotransport and quantum-oscillation measurements”, SUPERSTRIPES 2023, Quantum in Complex Matter International Conference, Ischia, Italy, 2023/6/26-7/1, Invited

C01 Planned Research Group

1. R. Arita, “Fermi surface expansion in correlated metals with strong ferromagnetic spin fluctutations: A cDMFT and DΓA study”, DMFT-QE Symposium, Online, 2024/2/5, Invited
2. R. Arita, “Optimizing Superconductivity:Ab initio Materials Design of Nickelate and Palladate Superconductors”, Advanced Materials Research Grand Meeting MRM2023 IUMRS-ICA2023, Kyoto International Conference Center, Kyoto, Japan, 2023/12/11-16, Invited
3. R. Arita, “High-throughput material search for functional antiferromagnets”, QUAST (Forschergruppe 5249) colloquium, Online, 2023/10/17, Invited
4. R. Arita, “Disentangling spin-orbit-free effects in emergent electromagnetism: Symmetry analysis with spin crystallography groups”, The Asia-Pacific workshop on strongly correlated systems, 2023/09/22-24, Invited
5. R. Arita, “First-principles exploration of short-pitch skyrmion materials”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
6. M. Sato, “Electric-field control of magnetic textures and topological orders in Mott insulators”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
7. Y. Motome, “Computational design of Kitaev materials”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
8. T. Tohyama, “Spin loop-current textures in the Hubbard models”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10

C01 Publicly Offered Research Group

1. T. Kawasaki, “What do deep neural networks find in disordered structures of glasses? ”, The 6th international conference on molecular simulation (ICMS2023), Boya Lecture Building, National Taiwan University,Taipei, Taiwan, 2023/10/6-9, Invited
2. T. Kawasaki, “Non-linear rheology of amorphous solids near the jamming transition point”, Osaka International Convention Center, Osaka，Japan, 2023/9/4-8
3. T. Kawasaki, “Non-linear rheology of amorphous solids near the jamming transition point”, The 9th International Discussion Meeting on Relaxations in Complex Systems (9 IDMRCS), Makuhari Messe, Chiba，Japan, 2023/8/12-18, Invited
4. T. Mizushima, “Thermal Generation of Spin Current in Superfluid 3He and Unconventional SC”, International Symposium on Quantum Fluids and Solids (QFS2023), University of Manchester, Manchester, UK, 2023/8/9-15, Invited
5. A. Daido, “Nonreciprocal charge transport of fluctuating finite-momentum Cooper pairs”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
6. T. Kawasaki, “Non-linear rheology of amorphous solids near the jamming transition point”, the 28th IUPAP International conference on Statistical Physics (Statphys 28), The University of Tokyo, Hongo campus, Tokyo, Japan, 2023/8/7-11
7. T. Mizushima, “Pair Density Waves in Topological Superfluid 3He”, Superstripes 2023: Quantum physics in Complex Matter, Conference Center of the Hotel Continental Ischia, Ischia, Italy, 2023/6/26-7/1, Invited

D01 Planned Research Group

1. Taka-hisa Arima, “Reentrant Antiferromagnetic Order in S=3/2 Square Magnet”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
2. Y. Toda, S. Tsuchiya, K. Yamane, R. Morita, M. Oda, T. Kurosawa, T. Mertelj, and D. Mihailovic, “Spatio-temporal dynamics of localized superconductivity generated by optical vortex pulse excitation”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
3. Y. Wada, S. Tsuchiya, H. Taniguchi and Y. Toda, “Temperature dependence of photoinduced carrier dynamics in the charge glass candidate θ−(BEDT−TTF)2CsCo(SCN)2”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
4. Tsuchiya, H. Wada, J. A. Schlueter and Y. Toda, “Ultrafast pump-probe reflectivity study in the normal state of quarter-filled organic superconductor”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
5. Taka-hisa Arima, “X-ray and Neutron Studies of Successive Magnetic Transitions in Lanthanide-Based Magnets“, International Conference on Strongly Correlated Electron Systems 2023（SCES2023）, Songdo ConvensiA, Incheon, Korea, 2023/7/2-7, Invited

D01 Publicly Offered Research Group

1. Y. Okamura, “Terahertz bulk photovoltaic effect by soft phonon in ferroelectrics”, The 14th APCTP Workshop on Multiferroics, Takeda-sentanchi Hall of Takeda-sentanchi Building, Tokyo, Japan, 2023/10/19-21
2. Y. Okamura, “Topological photovoltaic effect in the terahertz regime”, TRR360 First project retreet meeting, Kloster Irsee, Germany, 2023/10/9-10, Invited
3. Y. Onose, “Chirality control and detection in metallic helimagnets”, International Conference on Quantum Liquid Crystals 2023（QLC2023）, Hokkaido University, Sapporo, Japan, 2023/8/8-10
4. Y. Okamura, “Magneto-optical response of massive Dirac fermions in kagome magnet TbMn6Sn6”, Low-Energy Electrodynamics in Solids 2023 (LEES 2023), Cityhotel DC, Sankt Polten, Austria, 2023/6/25-30

A01 Planned Research Group

1. Y. Shimakawa, “Control of Magnetic Structures in Cation-Ordered Perovskite Oxides”, Reconnecting Oxide Research Meeting, Edinburgh, UK, 2023/3/27-28, Invited
2. Y. Shimakawa, “A-site magnetism in quadruple perovskite structure oxides”, APS March Meeting, Caesars Forum Convention Center. Las Vegas, USA, 2023/3/5-10
3. K. Kudo, “元素特性を利用した構造制御による遷移金属化合物の超伝導物質開発”, 低温工学・超電導学会関西支部 2022年度第3回講演会, 大阪公立大学文化交流センターホール, 大阪市, 大阪府, 2023/2/3, Invited
4. Y. Shimakawa, “Control of Magnetic Structures in Cation-Ordered Perovskite Oxides”, International school and conference on Evolution of Electronic Structure Theory and Experimental Realization (EESTER 2023, 3rd Edition), Chennai, India, 2023/1/4-12, Invited
5. T. Kimura, “キラル結晶およびフェロアキシャル結晶におけるキラリティ制御”, ISSPワークショップ カイラル物質科学の新展開, Hybrid & 東京大学物性研究所, 柏市, 千葉県, 2022/12/22-24, Invited
6. T. Kimura, “Symmetry-dependent magnetic, electric, and optical properties in ferroic and multiferroic material”, International Workshop on Physics and Chemistry of Electronic Materials, Hybrid & Osaka Metropolitan University, Sakai, Osaka, Japan, 2022/12/12-13, Invited
7. T. Kimura, “Symmetry breakings and resulting magnetic, electric, and optical properties in ferroic materials”, Furum on Quantum Physics and Complex Systems, Hybrid & Academic Exchange Building, City University of Hong Kong, Hong Kong, 2022/12/7-9, Invited
8. K. Kudo, “元素特性を利用した構造制御による遷移金属化合物の新超伝導体開発”, 大阪大学スピン学際研究部門「量子材料研究会」, 大阪大学（大阪府・豊中市）, 2022/12/1, Invited
9. T. Kimura, “Circular dichroism of resonant x-ray diffraction from magnetoelectrics”, The 13th APCTP Workshop on Multiferroics, Online & Southeast University, Nanjing, China, 2022/10/11-13, Invited
10. K. Kudo, “Doping-induced polar-nonpolar structural phase transition and enhancement of superconductivity in platinum pnictides”, Pacific Rim International Conference on Superconducting Materials : Fundamentals and Applications (PRISM2022), online, 2022/9/22-23, Invited
11. T. Kimura, “Design, synthesis, and characterization of ferroaxial materials”, Symposium on Quantum Materials Synthesis 2022, Hyatt Regency Maui Resort and Spa, Hawaii, USA, 2022/9/8-10, Invited
12. T. Kimura, “Observation of unconventional ferroic domains by linear optical effects”, The 15th Asia Pacific Physics Conference (APPC15), online, 2022/8/21-26, Invited
13. K. Kudo, “Enhanced superconductivity in close proximity to polar-nonpolar structural phase transition by chemical doping of PtBi2”, The 15th Asia Pacific Physics Conference (APPC15), online, 2022/8/21-26, Invited
14. K. Takaki, T. Takeuchi, M. Nakajima, and K. Kudo, “Enhanced Superconductivity in Close Proximity to Polar-Nonpolar Structural Phase Transition in Chemically Doped PtBi2”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan, 2022/8/18-24
15. M. Maeda, M. Tokuda, R. Nakamura, M. Watanabe, K. Takaki, K. Kudo, and Y. Niimi, “Superconducting properties in Se-doped PtBi2 thin films”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan, 2022/8/18-24  
16. Y. Shimakawa, “Giant entropy changes in charge transition oxides”, e-MRS 2022 Spring Meeting, online, 2022/5/30-6/3

A01 Publicly Offered Research Group

1. M. Uchida, “Maximizing anomalous Hall effect by tuning the Fermi level in simple Weyl semimetal EuCd2Sb2”, 2023 American Physical Society March Meeting, Caesars Forum Convention Center. Las Vegas, USA, 2023/3/5-10
2. R. Yamada, “High mobility electrons and electron correlation in Dirac semimetal CaIrO3, QLC, 2nd Quantum Materials Forum, Tohoku University, Miyagi, Japan, 2023/1/6-7
3. M. Hirschberger, “Planar Hall effect from spiral and cycloidal magnetism in Weyl semimetals”, FYR04 QLC meeting, Nagoya University, Aichi, Japan, 2022/12/8-10
4. R. Yamada, “Giant magnetoresistance and CDW formation in the quantum limit of correlated Dirac semimetal CaIrO3”, 第16回物性科学領域横断研究会 (領域合同研究会), online, 2022/11/25-26
5. M. Uchida, “強磁場を利用した半金属・半導体薄膜の新奇量子輸送状態に関する研究”, 第4回強磁場フォーラム フロンティア奨励賞受賞講演, 東北大学金属材料研究所, Miyagi, Japan / online, 2022/11/24-25, Invited
6. M. Hirschberger, “Bulk measurements, electrical and thermal transport”, Workshop on Topology in Magnetic Materials, Seminarhaus Herzberg, Herzberg, Switzerland, 2022/11/22-24, Invited
7. R. Yamada, “Enhanced Nernst effect in magnetic Weyl semimetal NdAlSi”, 日本物理学会 2022年秋季大会, 東京工業大学, Tokyo, Japan, 2022/9/12-15
8. M. Hirschberger, “Spin Dynamics and electronic transport: emergent inductance and chiral fluctuations”, The IEEE Around-the-Clock Around-the-Globe Magnetics Conference 2022, online, 2022/8/31, Invited
9. M. Uchida, “Quantum Hall conduction on topological semimetal Fermi arcs”, The 15th Asia Pacific Physics Conference (APPC15), online, 2022/8/21-26, Invited
10. M. Hirschberger, “Spin-chiral fluctuation processes in magnetic metals”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan, 2022/8/18-24
11. K. Ueda, S. Hori, T. Kida, M. Hagiwara, and J. Matsuno, “Spin-current generation from 5d transition-metal oxides”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan, 2022/8/18-24
12. T. Sasaki, “Randomness Effect on the Correlated p-electrons in Molecular Organic Superconductors with Quenched Disorder Introduced by X-ray Irradiation”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan, 2022/8/18-24
13. D. Hirai, A. Fukui, H. Sagayama, T. Hasegawa and Z. Hiroi, “Successive Phase Transitions of the Spin–Orbit-Coupled Metal Cd2Re2O7 Probed by High-Resolution Synchrotron X-Ray Diffraction”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24
14. M. Hirschberger, “Spin-chiral fluctuation processes in magnetic metals”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24
15. M. Ohno, S. Minami, Y. Nakazawa, S. Sato, M. Kriener, R. Arita, M. Kawasaki, M. Uchida, “Maximizing anomalous Hall effect by tuning the Fermi level in simple Weyl semimetal films”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan, 2022/8/18-24
16. M. Hirschberger, “Spin chirality and transport phenomena: from static magnetic order to thermal fluctuation processes”, Young Research Leaders Group Workshop: Spins, Orbits, Charges, and Heat in Magnets, WASEM Monastery, Ingelheim, Germany, 2022/7/6-8, Invited
17. M. Hirschberger, “Spin Chirality Driven by Thermal Fluctuations in Correlated Paramagnets”, From Solid State to Biophysics, Hotel Croatia, Cavtat, Croatia, 2022/6/11-18, Invited
18. M. Hirschberger, “Spin-chiral fluctuation processes in magnetic insulators and metals”, Topmax22: Band Topology in Quantum Magnets: From nontrivial excitations to non-Hermitian topology and spintronics, Max Planck Institute for the Physics of Complex Systems, Dresden, Germany, 2022/06/13-15, Invited
19. D. Hirai, “Pleochroism of the 5d oxychloride Ca3ReO5Cl2 ― a unique optical property of the mixed-anion compound”, 2022 MRS Spring Meeting & Exhibit, Honolulu, Hawai, USA / online, 2022/5/8-13, Invited

B01 Planned Research Group

1. T. Shibauchi, “Nematic quantum critical points and unconventional superconducting states in Fe(Se/S/Te)”, APS March Meeting 2023, Caesars Forum Convention Center. Las Vegas, USA, 2023/03/05-10, Invited
2. T. Shibauchi, “キタエフスピン液体における磁場角度依存マヨラナギャップの比熱による検証”, 物性研短期研究会「固体におけるエニオンと分数統計粒子研究の最前線」, 柏キャンパス図書館1階メディアホール, The University of Tokyo, Kashiwa, Japan / online, 2023/02/13-14, Invited
3. T. Shibauchi, “Chiral superconductivity in UTe2 probed by nodal gap structures”, 2023 Quantum Materials Symposium (QMS2023), Yongpyong resort, Yongpyong, Korea / Online, 2023/02/13-14
4. Y. Shimizu, “NMR spectroscopy on quantum spin liquids and solids”, International Workshop on Physics and Chemistry of Electronic Materials, Osaka metropolitan University, Osaka, Japan, 2022/12/12-13, Invited
5. T. J. Sato, “Long-range magnetic order in quasicrystalline magnets”, 2022 Taiwanese Neutron Scattering Society Annual Meeting (2022 TWNSS Annual Meeting), Kinmen Senior High School, Kinmen, Taiwan, 2022/11/18-20, Invited
6. H. Wadati, “Ultrafast spin dynamics in ferromagnetic and antiferromagnetic thin films studied by x-ray and laser”, The 12th International Conference on Photonics and Applications (ICPA-12), Marina Bay Con Dao Hotel, Con Dao, Vietnam, 2022/9/28-10/1, Invited
7. H. Wadati, “放射光とレーザーを駆使した酸化物磁性のスピンダイナミクス観測”, 応用物理学会秋季学術講演会「先端計測と機能性酸化物研究の共進化」シンポジウム, 東北大学川内北キャンパス / online, 2022/9/20-23, Invited
8. T. J. Sato, “Magnetism research with continuous neutron sources; Magnetic skyrmion and quasicrystalline magnets”, US-Japan workshop “Neutron Scattering on continuous sources — future developments”, Oak Ridge National Laboratory, Oak Ridge, Tennessee, USA, 2022/9/19-21, Plenary
9. T. Shibauchi, “Nematicity and exotic superconducting states in iron chalcogenides”, The 15th Asia Pacific Physics Conference (APPC15), online, 2022/8/22-26, Invited
10. T. Hanaguri, “Possible Majorana Zero Mode in the Vortex Cores of Fe(Se, Te)”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/08/18-24, Invited
11. T. J. Sato, “Observation of magnetic long-range order in quasicrystals”, International Conference on Neutron Scattering (2022ICNS), Savoy Hotel, Buenos Ares, Argentine, 2022/08/21-25
12. Y. Shimizu, “NMR detection of Majorana gap in Kitaev magnets”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/08/18-24
13. T. Shibauchi, “Nematic quantum critical points and unconventional superconducting states in iron chalcogenides”, International Workshop on Recent Progress in Superconductivity (IWRS2022), Yongpyong Resort, Yongpyong, Korea / Online, 2022/8/9-11, Invited
14. T. Shibauchi, “Nematicity and Exotic Superconductivity in FeSe-based Superconductors”, 13th International Conference on Materials and Mechanisms of Superconductivity & High Temperature Superconductors 2022 (M2S2022), Vancouver Convention Centre, Vancouver, Canada, 2022/7/17-22, Invited
15. T. Hanaguri, “Superconductivity, Nematicity and Topology in Fe(S,Se,Te)”, 13th International Conference on Materials and Mechanisms of Superconductivity & High Temperature Superconductors 2022 (M2S2022), Vancouver Convention Centre, Vancouver, Canada, 2022/7/17-22, Invited
16. S. Kasahara, “Fulde-Ferrell-Larkin-Ovchinnikov States in the BCS-BEC-Crossover Superconductor FeSe”, The 13th International Conference on Materials and Mechanisms of Superconductivity & High Temperature Superconductors, Vancouver Convention Centre, Vancouver, Canada, 2022/17-22, Invited
17. T. Shibauchi, “Enhanced superconductivity near a nematic quantum critical point in FeSe-based superconductors”, Superstripes 2022 Conference, Frascati National Laboratories, Frascati, Italy / Online, 2022/6/20-24, Invited
18. T. Shibauchi, “Ultranodal Pair State in FeSe1-xSx Superconductors”, 15th International Ceramics Congress (CIMTEC2022), Centro Congressi Hotel Quattrotorri, Perugia, Italy, 2022/6/20-24, Invited

B01 Publicly Offered Research Group

1. T. Asaba, “カゴメ金属CsV3Sb5における奇パリティ量子液晶”, 日本物理学会2023年春季学会（共催シンポジウム講演）「金属，スピン系，超伝導体における様々な量子液晶状態」, online, 2023/3/22-25, Invited
2. S. Imajo, “超音波で観るFFLO超伝導の空間異方性”, 日本物理学会2023年春季大会（共催シンポジウム講演）「金属，スピン系，超伝導体における様々な量子液晶状態」, online, 2023/3/22-25, Invited
3. H. Ishikawa, “In-plane superconducting anisotropy in CsV3Sb5”, 日本物理学会2023年春季大会, online, 2023/3/22-25, Invited
4. S. Yonezawa, “In-plane superconducting anisotropy in CsV3Sb5”, OSS Weekly Meeting, online, 2022/3/15
5. K. Kuroda, “Visualization of optical polarization transfer to photoelectron spin vector emitted from a spin-orbit coupled surface state”, APS March Meeting 2023, Caesars Forum Convention Center. Las Vegas, USA, 2023/3/5-10, Invited
6. T. Asaba, “An odd-parity nematic phase above the charge density wave transition in kagome metal CsV3Sb5”, 基研研究会2022, 京都大学基礎物理学研究所 湯川記念館 パナソニックホール, Kyoto, Japan, 2022/12/21-23, Invited
7. Y. Hu, S. Yamane, G. Mattoni, K. Obata, Y. Li, Y. Yao, Z. Wang, J. Wang, C. Farhang, J. Xia, S. Yonezawa, Y. Maeno, “Polar Kerr effect study on the time-reversal symmetry-breaking”, OSS2022 “Oxide Superconducting Spintronics Workshop 2022”, Vietri sul Mare, Italy, 2022/11/14-17, Invited
8. S. Yamane, Y. Hu, G. Mattoni, Y. Li, Y. Yao, Z. Wang, J. Wang, C. Farhang, J. Xia, S. Yonezawa, Y. Maeno, “Developments of magneto-optic Kerr-effect measurement techniques for detecting time-reversal symmetry breaking”, OSS2022 “Oxide Superconducting Spintronics Workshop 2022”, Vietri sul Mare, Italy, 2022/11/14-17
9. K. Kuroda, “Electronic Correlations of CeSb under The Devil’s Staircase Transition”, CONMAT2022, Dubai, UAE, 2022/10/17-19, Invited
10. S. Imajo, T. Nomura, Y. Kohama, and K. Kindo, “Acoustic properties of the Fulde–Ferrell–Larkin–Ovchinnikov state”, The 14th International Symposium on Crystalline Organic Metals, Superconductors and Magnets (ISCOM2022), Westotel hotel, Le Pouliguen, France, 2022/9/25-30
11. S. Yonezawa, “Disorder Effects on Unconventional Superconductivity in (TMTSF)2ClO4”, The 14th International Symposium on Crystalline Organic Metals, Superconductors and Magnets (ISCOM2022), Westotel hotel, Le Pouliguen, France, 2022/9/25-30, Invited
12. Y. Ihara, “15In-NMR study for field-induced magnetic structure in chiral polar magnet Ni2InSbO6”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24
13. A. Ikeda, M. Kawaguchi, S. Koibuchi, S. Ranjan Saha, D. Graf, P. Saraf, D. S. Sokratov, Y. Hu, H. Takahashi, S. Yamane, A. Jayaraj, J. Sławińska, M. B. Nardelli, T. Hashimoto, T. Kawakami, S. Yonezawa, M. Sato, Y. Maeno, J. Paglione, “Superconductivity in CaSb2, line-nodal metal with a nonsymmorphic structure”, Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24
14. G. -q. Zheng, “Spin-Triplet Topological Superconductivity in strongly-correlated and spin-orbit coupled systems”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24
15. K. Kinjo, M. Manago, S. Kitagawa, K. Ishida Z. Q. Mao, S. Yonezawa, Y. Maeno, “17O–NMR measurements on Sr2RuO4 near upper critical field”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24
16. S. Yamane, Y. Hu, G. Mattoni, Y. Li, Y. Yao, Z. Wang, J. Wang, C. Farhang, J. Xia, S. Yonezawa, Y. Maeno, “High resolution Kerr-effect study for detecting time-reversal symmetry breaking in unconventional ordered states”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24
17. Y. Hu, S. Yamane, G. Mattoni, K. Obata, Y. Li, Y. Yao, Z. Wang, J. Wang, C. Farhang, J. Xia, S. Yonezawa, Y. Maeno, “Polar Kerr effect study on the time-reversal symmetry-breaking charge density wave in the Kagome superconductor CsV3Sb5”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24
18. K. Obata, K. Fukushima, S. Yamane, Y. Hu, G. Mattoni, Y. Yao, Y. Li, Z. Wang, Y. Maeno, S. Yonezawa, “Field-angle-resolved calorimetry of the Kagome superconductor CsV3Sb5”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24
19. Y. Ihara, “Microscopic coexistence of superconductivity and antiferromagnetism in excess-oxygen La2CuO4+y”, International workshop on Microscopic Properties of Quantum Materials, Centennial Hall, Hokkaido University, Sapporo, Japan, 2022/8/1-2
20. Y. Shiomi, “Reconfigurable single-material Peltier effect using magnetic phase junctions”, Young Research Leaders Group Workshop: Spins, Orbits, Charges, and Heat in Magnets, WASEM Monastery, Ingelheim, Germany, 2022/7/6-8, Invited
21. Y. Ihara, “NMR study for magnetic transition in S=1/2 kagome antiferromagnets”, 11th International Conference on Highly Frustrated Magnetism 2022 (HFM2022), Sorbonne university, Paris, France, 2022/6/20-25
22. H. Ishikawa, “SmI3 as an antiferromagnetic Kitaev material”, 11th International Conference on Highly Frustrated Magnetism 2022 (HFM2022), Sorbonne university, Paris, France, 2022/6/20-25

C01 Planned Research Group

1. H. Kontani, “Mechanism of even- and odd-parity density-waves and beyond-Migdal superconductivity in kagome metal AV3Sb5 (A = K, Rb, Cs)”, APS March Meeting 2023, Caesars Forum Convention Center. Las Vegas, USA, 2023/3/5-10
2. T. Tohyama, K. Tsutsui, K. Shinjo, S. Sota, “Exciton-assisted low-energy magnetic excitations in a photoexcited Mott insulator on a square lattice”, APS March Meeting 2023, Caesars Forum Convention Center. Las Vegas, USA, 2023/3/5-10
3. N. Shannon, “Frustrated quantum spin models: fundamental physics in new places”, Interdisciplinary Science Conference in Okinawa (ISCO2023), OIST, Okinawa, Japan, 2023/2/27-3/3, Invited
4. T. Tohyama, “Glassy dynamics and symmetry control of the 1D Mott insulator excited by a strong terahertz pulse”, 11th Nonequilibrium Quantum Workshop (NQW), HOTEL KRVAVEC, Krvavec, Slovenia / online, 2022/12/11-15, Invited
5. N. Shannon, “Simulating the dynamics of quantum liquid crystals in spin-1 magnets”, FYR04 QLC meeting, Nagoya University, Aichi, Japan, 2022/12/8-10
6. T. Tohyama, “Time-resolved RIXS and Raman scattering in a photoexcited Mott insulator on a square lattice”, The 13th TOYOTA RIKEN International Workshop: Integrated Spectroscopy for Strong Electron Correlation -Theory, Computation and Experiment (ISSEC2022), Koshiba hall, University of Tokyo, Tokyo, Japan, 2022/12/5-8, Invited
7. Y. Motome, “Materials perspective on Kitaev spin liquids”, Novel Quantum States in Condensed Matter 2022, Yukawa Institute for Theoretical Physics, Kyoto University, Kyoto, Japan, 2022/10/31-12/2, Invited
8. N. Shannon, “Machine learning-assisted solution of a difficult problem in frustrated magnetism”, Novel Quantum States in Condensed Matter 2022, Yukawa Institute for Theoretical Physics, Kyoto University, Kyoto, Japan, 2022/10/31-12/2, Invited
9. H. Kontani, “Exotic density-wave states and superconductivity in kagome metals and other strongly correlated electron systems”, Novel Quantum States in Condensed Matter 2022, Yukawa Institute for Theoretical Physics, Kyoto University, Kyoto, Japan, 2022/10/31-12/2
10. R. Arita, “Recent advances in DFT calculations of topological magnetic materials”, Topology in Magnetic Materials, The Herzberg seminar house, Herzberg, Switzerland, 2022/11/22-24, Invited
11. M. Sato, “Nonlinear Optical Effects in Ordered Magnets and Kitaev Spin Liquids”, Asia-Pacific Conference on Condensed Matter Physics 2022 (AC2MP2022), Institute for Materials Research, Tohoku University, Sendai, Japan / online, 2022/11/21-23, Invited
12. T. Tohyama, “Electric-pulse-driven spin and charge dynamics in Mott insulators”, The International Conference on Nonequilibrium and Ultrafast Quantum States, Beijing & Dongguan, Beijing, China / online, 2022/11/14-17, Invited
13. T. Tohyama, “Electric-pulse-driven spin and charge dynamics in Mott insulators”, Ultrafast Dynamics and Metastability 2022 (UDM2022), Georgetown University, Washington, DC, USA / online, 2022/11/14-18, Invited
14. N. Shannon, “From Quantum spin liquids to quantum computers”, OIST Center for Quantum Technologies Mini Symposium, OIST, Okinawa, Japan, 2022/11/9, Invited
15. T. Tohyama, “光励起モット絶縁体のスピンダイナミクス”, 研究会 ―相関電子の軌道自由度から生まれる多様性と普遍性―, 東北大学, Miyagi, Japan, 2022/10/28-29, Invited
16. H. Kontani, “多軌道⾦属における内因性ホール効果：軌道流とスピン流の関係性”, 第85回スピントロニクス専門研究会, 北海道大学工学部, Hokkaido, Japan, 2022/10/18, Invited
17. N. Shannon, “Semi-classical simulation of spin-1 magnets”, Frustrated Metals and Insulators, Ramanujan Lecture Hall, Bengaluru, India / Online, 2022/9/5-16, Invited
18. Y. Motome, “Topological spin crystals by itinerant frustration”, Frustrated Metals and Insulators, Ramanujan Lecture Hall, Bengaluru, India and Online, 2022/9/5-16, Invited
19. T. Tohyama, “Theory of Time-Resolved Resonant-Inelastic X-Ray Scattering in a Photoexcited Mott insulator”, The 12th International Conference on Inelastic X-ray Scattering (IXS2022), Saïd Business School, Oxford, UK, 2022/8/21-26, Invited
20. R. Pohle, N. Shannon, and Y. Motome, “Spin liquid and nematic states in the spin-1 honeycomb Kitaev model with bilinear-biquadratic interactions”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan, 2022/8/18-24
21. R. Arita, “First-principles study on superconductivity in d9 correlated electron systems”, International Workshop on Recent Progress in Superconductivity (IWRS2022), Yongpyong, Korea, 2022/8/9-11, Invited
22. R. Arita, “Ab initio study on superconductivity in hydrides”, IUPAP Conference on Computational Physics, online, 2022/8/1-4, Invited
23. R. Arita, “Quantum and temperature effects on crystal structure of LaH10”, Challenges in designing room temperature superconductors, L’Aquila, Italy, 2022/7/26-29, Invited
24. Y. Motome, “Kitaev spin liquid materials as a Majorana platform”, International Conference on Strongly Correlated Electron Systems 2022 (SCES2022), RAI Amsterdam, Amsterdam, Netherland, 2022/7/24-29, Invited
25. Y. Kato, S. Hayami, and Y. Motome, “Magnetic field-temperature phase diagrams and spin excitation spectra for topological multiple-Q magnetic orders”, International Conference on Strongly Correlated Electron Systems 2022 (SCES2022), RAI Amsterdam, Amsterdam, Netherland, 2022/7/24-29
26. K. Shimizu, S. Okumura, Y. Kato, and Y. Motome, “Phase degree of freedom and topological properties in multiple-Q spin textures”, International Conference on Strongly Correlated Electron Systems 2022 (SCES2022), RAI Amsterdam, Amsterdam, Netherland, 2022/7/24-29
27. R. Arita, “Pressure-Temperature phase diagram of LaH10”, Mechanisms of superconductivity, New York, USA, 2022/7/25-27, Invited
28. M. Sato, “Large Spin Current Rectification with Magnetic Resonance”, The 12th International Conference on Metamaterials, Photonic Crystals and Plasmonics (META2022), Torremolinos Congress Center, Torremolinos, Spain / online, 2022/7/19-22, Invited
29. R. Arita, “Path integral molecular dynamics study on the P-T phase diagram of LaH10”, Superstripes 2022 Conference, Bruno Touschek Congress Center Frascati National Laboratories LNF of Istituto Nazionale di Fisica Nucleare,Rome, Italy, 2022/6/20-24, Invited
30. H. Kontani, “Exotic density-wave states and superconductivity in kagome metals and other strongly correlated electron systems”, Superstripes 2022 Conference, Bruno Touschek Congress Center Frascati National Laboratories LNF of Istituto Nazionale di Fisica Nucleare,Rome, Italy, 2022/6/20-24, Invited
31. K. Shimizu, S. Okumura, Y. Kato, and Y. Motome, “Spin moire engineering of topology and emergent electromagnetic fields in multiple-Q spin textures”, 11th International Conference on Highly Frustrated Magnetism 2022 (HFM2022), Sorbonne university, Paris, France, 2022/6/20-25
32. S. Okumura, S. Hayami, Y. Kato, and Y. Motome, “Quadruple-Q magnetic hedgehog lattices in itinerant magnets”, 11th International Conference on Highly Frustrated Magnetism 2022 (HFM2022), Sorbonne university, Paris, France, 2022/6/20-25
33. R. Pohle, N. Shannon, and Y. Motome, “Spin liquid and nematic states in the spin-1 honeycomb Kitaev model with bilinear-biquadratic interactions”, 11th International Conference on Highly Frustrated Magnetism 2022 (HFM2022), Sorbonne university, Paris, France, 2022/6/20-25
34. Y. Kato, S. Hayami, and Y. Motome, “Magnetic field-temperature phase diagrams and spin excitation spectra for multiple-Q magnetic orders”, 11th International Conference on Highly Frustrated Magnetism 2022 (HFM2022), Sorbonne university, Paris, France, 2022/6/20-25
35. R. Arita, “Wannier-based ab initio methods for correlated materials”, Wannier 2022 Summer School, online, 2022/5/16-20, Invited
36. N. Shannon, “Semi-classical simulation of spin-1 magnets”, Workshop on Quantum Magntism, The Congressi Stefano Franscini, Ascona, Switzerland, 2022/4/24-27, Invited

C01 Publicly Offered Research Group

1. T. Kawasaki, “Topological phase transitions in passive or active particles with chiral interactions”, Japan-France joint seminar “Physics of dense and active disordered materials”, Yukawa Institute for Theoretical Physics, Kyoto University, 2023/03/13-16
2. A. Daido, “Intrinsic superconducting diode effect”, APS March Meeting 2023, Caesars Forum Convention Center. Las Vegas, USA, 2023/3/5-10, Invited
3. Remund, R.Pohle, Y. Akagi, J. Romhányi, and N. Shannon, “Spin-1 magnets ー a u(3) Formalism”, APS March Meeting 2023, Caesars Forum Convention Center. Las Vegas, USA, 2023/3/5-10
4. Ono and Y. Akagi, “Optically controlled spin scalar chirality in centrosymmetric magnetic metals”, APS March Meeting 2023, Caesars Forum Convention Center. Las Vegas, USA, 2023/3/5-10
5. A. Daido, “内因的超伝導ダイオード効果とヘリカル超伝導”, 第28回 渦糸物理ワークショップ, 青山学院大学相模原キャンパス, Kanagawa, Japan, 2022/12/15-17, Invited
6. Chojnacki, R. Pohle, H. Yan, Y. Akagi, and N. Shannon, “Analogues of light and gravity in the collective excitations of quantum magnets”, The German Conference of Women in Physics (Deutsche Physikerinnentagung), Karlsruhe Institute of Technology, Karlsruher, German, 2022/11/24-27
7. T. Kawasaki, “Identifying time scales for violation/preservation of Stokes-Einstein relation in super-cooled water”, ICPAC Kota Kinabalu 2022, Kota Kinabalu,Malaysia, 2022/11/22-27, Invited
8. Yuki Amari, Yutaka Akagi, Sven Bjarke Gudnason, Muneto Nitta, Yakov Shnir, “CP2 Skyrmion crystals in an SU(3) magnet with a generalized Dzyaloshinskii-Moriya interaction”, The 2nd International Symposium on Trans-scale Quantum Science (TSQS 2022), Koshiba Hall, The University of Tokyo, Japan, 2022/11/8-11
9. K. Remund, R. Pohle, Y. Akagi, J. Romhányi, and N. Shannon, “Spin-1 magnets ー Au(3) Formalism”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan, 2022/8/18-24
10. T. Mizushima, “Pair Density Waves in Confined Superfluid 3He”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24, Invited
11. L. Chojnacki, R. Pohle, H. Yan, Y. Akagi, and N. Shannon, “Analogues of light and gravity in the collective excitations of quantum magnets”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan, 2022/8/18-24
12. A. Daido, “Theory of intrinsic superconducting diode effect”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan, 2022/8/18-24
13. A. Ono and Y. Akagi, “Photocontrol of spin scalar chirality in centrosymmetric itinerant magnets”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan, 2022/8/18-24
14. A. Daido, “Theory of intrinsic superconducting diode effect”, International Conference on Strongly Correlated Electron Systems 2022 (SCES2022), RAI Amsterdam, Amsterdam, Netherland, 2022/7/24-29
15. Y. Akagi, “Emergence/control of topological spin textures in various spin systems”, The 12th International Conference on Metamaterials, Photonic Crystals and Plasmonics [META 2022], Torremolinos Congress Center, Torremolinos, Spain, 2022/7/19-22, Invited
16. A. Daido, H. Watanabe, H. Tanaka, Y. Ikeda, Y. Yanase, “Nonreciprocal responses in superconductors: diode effect, Meissner effect, and nonlinear optics”, The 12th International Conference on Metamaterials, Photonic Crystals and Plasmonics (META2022), Torremolinos Congress Center, Torremolinos, Spain / online, 2022/7/19-22, Invited
17. T. Kawasaki, “トポロジカル相転移がもたらす創発弾性場：分子のキラリティと立体異方性の影”, The 15th Mini-Symposium on Liquids, 九州大学Ｗ1-C-408号室, Fukuoka, Japan, 2022/7/9, Invited
18. K. Remund, R. Pohle, Y. Akagi, J. Romhányi, and N. Shannon, “Spin-1 magnets ー Au(3) Formalism”, The 11th International Conference on Highly Frustrated Magnetism 2022 [HFM22], Sorbonne university, Paris, France, 2022/6/20-25
19. L. Chojnacki, R. Pohle, H. Yan, Y. Akagi, and N. Shannon, “Analogues of light and gravity in the collective excitations of quantum magnets”, The 11th International Conference on Highly Frustrated Magnetism 2022 [HFM22], Sorbonne university, Paris, France, 2022/6/20-25
20. A. Daido, “Theory of the intrinsic superconducting diode effect”, Superconducting diode effects workshop, online, 2022/5/18-19, Invited

D01 Planned Research Group

1. Y. Togawa, “BKT転移（実験）”, 日本物理学会 2023年春季大会 （一般シンポジウム講演）, online, 2023/3/22-25, Invited
2. K. Kobayashi, “ダイヤモンド量子センサによる物性研究”, 2023年第70回応用物理学会春季学術講演会, 上智大学四谷キャンパス, Tokyo, Japan / online, 2023/3/15-18, Invited
3. Nakamura, H. Watanabe, K. M. Itoh, K. Sasaki, J. I. Hayase and K. Kobayashi, “Optimization of optical spin readout of the nitrogen-vacancy center in diamond based on spin relaxation model”, APS March Meeting 2023, Caesars Forum Convention Center. Las Vegas, USA, 2023/3/5-10
4. K. Ishizaka, “レーザー顕微ARPESによる原子層物質の物性探索”, ナノテラスARPESシンポジウム〜ナノ集光で拓くサイエンスの新展開〜, 東北大学材料科学高等研究所, Miyagi, Japan, 2023/2/21-22, Invited
5. M. Tsukamoto, K. Yamamoto, M. Kawaguchi, M. Hayashi, K. Sasaki, and K. Kobayashi, “Imaging of domain wall motion using quantum magnetic sensor”, FoPM Symposium (Forefront Physics and Mathematics Program to Drive Transformation Symposium, Ito International Research Center, the University of Tokyo, Japan, 2023/2/6-8
6. K. Ogawa, M. Tsukamoto, K. Sasaki and K. Kobayashi, “Microwave imaging using diamond quantum sensor”, FoPM Symposium (Forefront Physics and Mathematics Program to Drive Transformation Symposium, Ito International Research Center, the University of Tokyo, Japan, 2023/2/6-8
7. H. Gu, Y. Nakamura, K. Sasaki, K. Kobayashi, “Quantum sensor in two-dimensional van der Waals material”, FoPM Symposium (Forefront Physics and Mathematics Program to Drive Transformation Symposium, Ito International Research Center, the University of Tokyo, Japan, 2023/2/6-8
8. S. Nishimura, T. Kobayashi, D. Sasaki, T. Tsuji, T. Iwasaki, M. Hatano, K. Sasaki, K. Kobayashi, “Quantitative magnetic imaging of superconducting quantum vortex using solid-state quantum spin sensor”, FoPM Symposium (Forefront Physics and Mathematics Program to Drive Transformation Symposium, Ito International Research Center, the University of Tokyo, Japan, 2023/2/6-8
9. K. Ishizaka, “Laser micro-ARPES study on 2D transition-metal ditellurides”, The 13th TOYOTA RIKEN International Workshop: Integrated Spectroscopy for Strong Electron Correlation -Theory, Computation and Experiment (ISSEC2022), Koshiba hall, University of Tokyo, Tokyo, Japan, 2022/12/5-8, Invited4
10. R. Okaniwa, Y. Matsuzaki, T. Yamaguchi, H. Watanabe, N. Mizuochi, N. Tokuda, Y. Nakano, K. Kobayashi, K. Sasaki, J. Ishi-Hayase, “Frequency-tunable AC Magnetometry by Using Electronic Spin Triple-Resonance of Nitrogen-Vacancy Center in Diamond”, MRS Fall 2022, Boston, USA / Online, 2022/11/27-12/1
11. K. Kobayashi, “量子液体と量子スピン顕微鏡 ―量子を見る、量子で見る―”, 物理談話会, 千葉大学, Chiba, Japan, 2022/11/29, Invited
12. K. Ishizaka, “Laser mARPES study on 2D transition-metal telluride flakes”, The 13th Recent Progress in Graphene and Two-dimensional Materials Research Conference (RPGR2022), CHANG YUNG-FA FOUNDATION International Convention Center, Taipei, Taiwan, 2022/11/13-17, Invited
13. K. Yamamoto, K. Ogawa, M. Tsukamoto, K. Sasaki, and K. Kobayashi, “Nanodiamond quantum thermometer assisted with machine learning”, The 2nd International Symposium on Trans-scale Quantum Science (TSQS 2022), Koshiba Hall, The University of Tokyo, Japan, 2022/11/8-11
14. Y. Zhong, S. Li, H. Liu, Y. Dong, K. Aido, Y. Arai, H. Li, W. Zhang, Y. Shi, Z. Wang, S. Shin, H. N. Lee, H. Miao, T. Kondo and K. Okazaki, “Testing Electron-phonon Coupling for the Superconductivity in Kagome Metal CsV3Sb5”, The 2nd International Symposium on Trans-scale Quantum Science (TSQS 2022), Koshiba Hall, The University of Tokyo, Japan, 2022/11/8-11
15. Akifumi Mine, Yigui Zhong, Sahand Najafzadeh, Kenjiro OkawaA, Masato SakanoB, Kyoko IshizakaB, Shik ShinB, Takao SasagawaA, Kozo Okazaki, “Direct observation of the superconducting gap in the topological superconductor PdBi2 by low-temperature and high-resolution laser ARPES”, The 2nd International Symposium on Trans-scale Quantum Science (TSQS 2022), Koshiba Hall, The University of Tokyo, Japan, 2022/11/8-11
16. K. Kobayashi, “量子テクノロジーと機械学習”, 東京大学AIセンター連続シンポジウム 第11回「共進化する物理学と人工知能の現在」, online, 2022/10/3, Invited
17. K. Kobayashi, “Mesoscopic physics and quantum sensing”, the Max Planck – UBC – UTokyo Centre for Quantum Materials annual meeting, The University of British Columbia, Vancouver, Canada, 2022/9/19-21, Invited
18. K. Okazaki, “光電子分光による鉄系超伝導体Fe(Se,S)におけるBCS-BECクロスオーバーの観測”, 日本物理学会 2022年秋季大会（一般シンポジウム講演）, online, 2022/9/10, Invited
19. K. Ishizaka, “Laser photoelectron spectroscopy”, School on UV and x-ray spectroscopies of correlated electron systems, Les Houches, France, 2022/8/29-9/9, invited
20. K. Kobayashi, “量子を見る、量子で見る”, さきがけ「トポロジー」領域 第7回領域会議, Tokyo, Japan, 2022/8/29, Invited
21. K. Kobayashi, “Non-equilibrium behavior of correlated quantum liquid”, The 15th Asia Pacific Physics Conference (APPC15), online, 2022/8/21-26, Invited
22. R. Sakano, T. Hata, K. Motoyama, Y. Teratani, T. Arakawa, M. Ferrier, R. Deblock, M. Eto, K. Kobayashi, A. Oguri, “Universal Scaling property of Linear Conductance through a Kondo Dot in Magnetic Field and its Application”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24
23. K. Ishizaka, “Ultrafast nanoscale non-equilibrium state of matters visualized by time-resolved electron microscope”, The 15th Asia Pacific Physics Conference (APPC15) , online, 2022/8/21-26, Invited
24. K. Kobayashi, “Three-body correlation in nonequilibrium quantum liquid”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24, Invited
25. M. Tokuda, M. Nakao, M. Watanabe, R. Nakamura, M. Maeda, S. Lee, D. Yue, K. Aoyama, T. Mizushima, X.-F. Jin, K. Kobayashi, and Y. Niimi, “Observation of Little-Parks oscillations in Bi/Ni bilayer film”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24
26. Y. Zhong, S. Li, H. Liu, Y. Dong, K. Aido, Y. Arai, H. Li, W. Zhang, Y. Shi, Z. Wang, S. Shin, H. N. Lee, H. Miao, T. Kondo and K. Okazaki, “Testing Electron-phonon Coupling for the Superconductivity in Kagome Metal CsV3Sb5”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24
27. R. Okaniwa, Y. Matuszaki, T. Yamaguchi, S. Saijo, H. Watanabe, N. Mizuochi, Y. Nakano, N. Tokuda, K. Sasaki, K. Kobayashi, and J. Ishi-Hayase, “Investigation of Electronic Spin Triple-Resonance of Nitrogen-Vacancy Centers in Diamond for Sensing”, CLEO-PR 2022The 15th Pacific Rim Conference on Lasers and Electro-Optics (CLEO Pacific Rim, CLEO-PR 2022), Sapporo Convention Center, Hokkaido, Japan & online, 2022/7/31-8/6
28. T. Mikawa, K. J. Hallbäck, Y. Matsuzaki, N. Tokuda, K. Sasaki, K. Kobayashi, and J. Ishi-Hayase, “Imaging of Magnitude and Phase of AC Magnetic Field Using Continuous-Wave Scheme with Diamond”, CLEO-PR 2022The 15th Pacific Rim Conference on Lasers and Electro-Optics (CLEO Pacific Rim, CLEO-PR 2022), Sapporo Convention Center, Hokkaido, Japan & online, 2022/7/31-8/6
29. Y. Toda, “Coherent quench of superconducting state using optical vortex pulses”, 15th Pacific Rim Conference on Lasers and Electro-Optics, Sapporo Convention Center, Sapporo, Japan / Online, 2022/7/31-8/5
30. Y. Togawa, “次元性や対称性から生まれる巨視的スピン応答”, 応用物理学会 薄膜・表面物理分科会主催　第50回 薄膜・表面物理セミナー（2022）二次元磁性体研究の最前線, 東京理科大学森戸記念館 第 2 フォーラム, Tokyo, Japan, 2022/7/22, Invited
31. Tokuda, M. Nakao, M. Watanabe, R. Nakamura, M. Maeda, S. Lee, D. Yue,K. Aoyama, T. Mizushima, X.-F. Jin, K. Kobayashi, and Y. Niimi, “Observation of Little-Parks oscillations in Bi/Ni bilayer film”, 24th International Colloquium on Magnetic Films and Surfaces (ICMFS2022), Okinawa Institute of Science and Technology Graduate University, Okinawa, 2022/7/10-15
32. Y, Togawa, “物質カイラリティと巨視的スピン応答”, 2022年度夏学期第2回駒場物性セミナー, 東京大学駒場キャンパス, Tokyo, Japan, 2022/5/13, Invited

D01 Publicly Offered Research Group

1. Y. Okamura, “Photovoltaic effect by soft phonon excitation in ferroelectric BaTiO3”, APS March Meeting 2023, Caesars Forum Convention Center. Las Vegas, USA, 2023/3/5-10
2. Y. Niimi, “Observation of Little-Parks oscillations in Bi/Ni bilayer film”, International workshop on superconducting spintronics (Superconducting spintronics 2022), online, 2022/11/2-3, Invited
3. Y. Onose, “Magnetic domain control by the inverse of nonreciprocal responses”, Symposium on Quantum Materials Synthesis 2022, Hyatt Regency Maui Resort and Spa, Hawaii, USA, 2022/9/8-10, Invited
4. Y. Okamura, “Magneto-optical spectroscopy on Weyl nodes for anomalous and topological Hall effects in chiral-lattice magnet MnGe”, 29th International Conference on Low Temperature Physics (LT29), Sapporo Convention Center, Sapporo, Japan / Online, 2022/8/18-24,
5. Y. Niimi, “新しい原子層磁性体の開拓とそのスピン物性”, 第50回 薄膜・表面物理セミナー（2022）「二次元磁性体研究の最前線」, 東京理科大学森戸記念館, Tokyo, Japan / online, 2022/7/22, Invited

A01 Planned Research Group

1. T. Kimura, “Symmetry breakings and resulting magnetic, electric, and optical properties in ferroic materials”, 30th Annual Meeting of the German Crystallographic Society, online, 2022/3/14-17, Plenary
2. Y. Shimakawa, “新規遷移金属酸化物の電荷転移と熱制御応用”, 分子研研究会「エネルギー科学の最前線：階層横断的な理解に向けて」, online, 2022/2/28-3/1, Invited
3. K. Kudo, “三角形・ハニカム・カゴメネットワークを持つ超伝導体の物質開発”, 日本中間子科学会研究会「ミュオンで見る磁性・超伝導物質研究の最前線」, 大阪大学豊中キャンパス/online, 2021/1/7-8, Invited
4. *S. Ishida, H. Eisaki, et al., “Unique Vortex Pinning Properties of 1144-type Iron-based Superconductors”, Materials Research Meeting 2021 (MRM2021), Materials Research Meeting 2021 (MRM2021), online, 2021/12/13-16, Invited
5. T. Kimura, “Visualization of domain structures in a ferroaxial crystal”, The 14th Pacific Rim Conference on Ceramic and Glass Technology, Hyatt Regency Vancouver, Vancouver, Canada / online, 2021/12/13-16, Invited
6. *H. Ninomiya, K. Kawashima, A. Iyo, H. Fujihisa, S. Ishida, H. Ogino, Y. Yoshida, Y. Gotoh, and H. Eisaki, “Calcium-Free High-Tc Superconducting Cuprates with Double CuO2 Planes”, The 34th International Symposium on Superconductivity (ISS2021), online, 2021/11/30-12/2, Invited
7. T. Kimura, “Visualization of ferroaxial order”, The 12th APCTP Workshop on multiferroics, online, 2021/11/15-17, Invited
8. *S. Ishida, H. Eisaki, et al., “Unique Superconducting Properties of 1144-type Iron-based Superconductors”, 7th International Conference on Superconductivity and Magnetism (ICSM2021), La Blanche Island Bodrum Hotel & Convention Center, Milas-Bodrum, Turkey / online, 2021/10/21-27, Invited
9. Y. Azuma, “多層ラシュバ超伝導体の渦糸電子状態シミュレーション”, 応用物理学会量子化磁束動力学シミュレーション研究グループ2021年度秋のセミナー, FITセミナーハウス, Yuhu, Oita / online, 2021/10/16-17, Invited
10. S. Ishida, H. Eisaki, et al., “Superconductivity-driven ferromagnetism and spin manipulation using vortices in the magnetic superconductor EuRbFe4As4”, International Conference on Strongly Correlated Electron Systems 2020/21 (SCES2020/21), online, 2021/9/27-10/2
11. Y. Okamoto, “Regular-Triangle Trimer and Charge Order Preserving the Anderson Condition in the β-Pyrochlore Oxide CsW2O6”, 日本物理学会2021年秋季大会, online, 2021/9/20-23, Invited
12. K. Kimura, “「マルチフェロイクス　ー基礎から最近の話題までー」”, 強的秩序とその操作に関わる第13回夏の学校, online, 2021/9/14, Invited
13. K. Kudo, “秩序型ラーベス相化合物の超伝導物質開発”, 第5回固体化学フォーラム研究会, online, 2021/6/22-23, Invited
14. Y. Shimakawa, “Novel materials synthesis under extreme conditions”, THERMEC’ 2021, online, 2021/6/1-5, Invited
15. *Y. Higashi, S. Yoshizawa, T. Yanagisawa, T. Uchihashi, “Microscopic theory for disorder and anisotropy enhanced superconductivity in atomic layer crystalline materials”, 18th Online International Vortex Conference 2021 (Vortex 2021), online, 2021/5/27-6/4
16. K. Kudo, “秩序型ラーベス相構造を利用した超伝導体の開発”, 第2回強磁場コラボラトリー オンラインセミナー, online, 2021/5/21, Invited
17. Y. Okamoto, “Large magnetic-field-induced strain in geometrically frustrated sulfides”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invited
18. T. Kimura, “Observation of unconventional ferroic domains with linear optical effect”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invited
19. K. Kudo, “Superconductivity of the Fully and Partially Ordered Laves Phase Compounds”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13
20. H. Eisaki, “Superconductivity-driven ferromagnetism and spin manipulation using vortices in a magnetic superconductor EuRbFe4As4”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invited
21. Y. Okamoto , “Superconductivity in One-Dimensional Tellurides Nb2Pd3Te5 and Chemically-Doped Ta2Pd3Te5”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13

A01 Publicly Offered Research Group

1. T. Sasaki, “Lattice dynamics coupled to charge and spin degrees of freedom in the molecular dimer-Mott insulator”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invited
2. Y. Uchida, “Spins in Liquid Crystal” International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13
3. T. Nojima, “Anomalous Metallic Transport Induced by Ferroelectric Transition in Ion-Gated SrTiO3”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13

B01 Planned Research Group

1. H. Wadati, “Time-resolved pump–probe study of ferromagnetic and antiferromagnetic thin films”, International Special Talk Series on AMO Science at SHINE, online, 2022/3/29, Invited
2. T. Hanaguri, “STM studies of iron-based topological superconductors”, APS March Meeting 2022, McCormick Place Convention Center Chicago, Chicago, USA / online, 2022/3/14-18, Invited
3. H. Wadati, “X線とレーザーを組み合わせた磁性体のダイナミクスの観測”, 第69回化合物新磁性材料専門研究会, online, 2022/2/9, Invited
4. T. Shibauchi, “UTe2におけるノード構造とカイラル超伝導”, 基研研究会「非自明な電子状態が生み出す超伝導現象の最前線：新たな挑戦と展望」, YITP, Kyoto Univ., Kyoto / online, 2021/12/22-24, Invited
5. T. Hanaguri, “Fe(Se,Te)における超伝導・ネマティシティ・バンドトポロジーの関係”, 基研研究会「非自明な電子状態が生み出す超伝導現象の最前線：新たな挑戦と展望」, YITP, Kyoto Univ., Kyoto / online, 2021/12/22-24, Invited
6. H. Wadati, “Time-resolved x-ray study of ferromagnetic and antiferromagnetic thin films”, Materials Research Meeting (MRM2021), Yokohama Symposia, Kanagawa, Japan / online, 2021/12/15, Invited
7. T. Shibauchi, “Exotic superconducting states in FeSe-based materials”, The 34th International Symposium on Superconductivity (ISS2021), online, 2021/11/30-12/2, Invited
8. T. Shibauchi, “FeSe 系超伝導体におけるエキゾチック超伝導状態”, 第29回QLCセミナー, online, 2021/11/29, Invited
9. T. Shibauchi, “FeSe 系超伝導体におけるエキゾチック超伝導状態”, 第7回強磁場コラボラトリーオンラインセミナー, online, 2021/10/29, Invited
10. T. Shibauchi, “Ultranodal Pair State in FeSe1-xSx Superconductors”, 7th International Conference on Superconductivity and Magnetism (ICSM2021), La Blanche Island Bodrum Hotel & Convention Center, Milas-Bodrum, Turkey / online, 2021/10/21-27, Invited
11. T. Hanaguri, “Ultrahigh energy resolution scanning tunneling microscopy and its application to the search for Majorana quasiparticles”, The 10th Vacuum and Surface Sciences Conference of Asia and Australia (VASSCAA-10) & the Chinese Vacuum Conference 2021 (CVS 2021), online, 2021/10/11-24, Plenary
12. K. Nawa, “Magnetic Properties of the quasicrystal approximant Au65Ga21Tb14”, Meeting of the International Research Network; Open space between aperiodic order and physics & chemistry of materials, Carry le Rouet, France + online, 2021/10/3-7
13. T. Shibauchi, “Exotic superconducting states in FeSe-based materials”, 93rd Riken CEMS colloquium, online, 2021/9/29, Invited
14. T. Shibauchi, “Exotic superconducting states in FeSe-based materials”, The 12th International Conference on Intrinsic Josephson Effect and Horizons of Superconducting Spintronics, Chisinau, Chisinau, Moldova / online , 2021/09/22-25, Invited
15. T. Shibauchi, “ネマティック量子臨界点とウルトラノーダルペア状態”, 日本物理学会2021年秋季大会、共催シンポジウム講演（領域8、領域6）「鉄系超伝導研究の新展開—ネマティシティと新規超伝導相—」, online, 2021/9/20-23
16. T. Hanaguri, “分光イメージング走査型トンネル顕微鏡で見たFe(S,Se,Te)の多様な超伝導状態” , 日本物理学会2021年秋季大会、共催シンポジウム講演（領域8、領域6）「鉄系超伝導研究の新展開—ネマティシティと新規超伝導相—」, online, 2021/9/20-23
17. S. Kasahara, “FeSeにおけるFFLO超伝導相”, 日本物理学会2021年秋季大会、共催シンポジウム講演（領域8、領域6）「鉄系超伝導研究の新展開—ネマティシティと新規超伝導相—」, online, 2021/9/20-23
18. H. Wadati, “最先端量子ビームの応用物理“, 第82回応用物理学会秋季学術講演会 チュートリアル, online, 2021/9/21, Invited
19. H. Wadati, “X線とレーザーを組み合わせたスピンダイナミクス研究”, 第7回 大型実験施設とスーパーコンピュータとの連携利用シンポジウム, online, 2021/9/14, Invited
20. D. Okuyama, “Suppression mechanism of the ferro-electric polarization in multiferroic tetragonal perovskiteSr1/2Ba1/2MnO3”, 25th Congress of international union of crystallograpy (IUCr 2021), Prague, Chech + online, 2021/08/14-22
21. T. Shibauchi, “a-RuCl3における精密比熱測定によるマヨラナギャップの観測”, キタエフ量子スピン液体研究の新展開~マヨラナ励起の創出と制御によるトポロジカル量子計算の実現に向けて~, online, 2021/08/3-5, Invited
22. H. Wadati, “Ｘ線とレーザーによる遷移金属化合物の秩序とダイナミクス研究”, 第66回物性若手夏の学校, online, 2021/8/3-5, Invited
23. T. Hanaguri, “High-field superconducting phase in FeSe investigated by spectroscopic-imaging scanning tunneling microscopy”, 18th Online International Vortex Conference 2021 (Vortex 2021), online, 2021/5/27-6/3, Invited
24. S. Kasahara, “Fulde-Ferrell-Larkin-Ovchinnikov States in the BCS-BEC-Crossover Superconductor FeSe”, 18th Online International Vortex Conference 2021 (Vortex 2021), online, 2021/5/27-6/3, Invited
25. Taku J. Sato, “Deformation of skyrmion lattice in MnSi under current flow”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invited
26. K. Yamamoto, H. Wadati, “Photo-induced Magnetization Dynamics Observed with Synchrotron Radiation and Free Electron Lasers”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invited
27. T. Shibauchi, “Exotic pairing states in FeSe-based nematic superconductors”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invited
28. S. Kasahara, “FFLO superconducting states in the BCS-BEC crossover superconductor FeSe”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invite

B01 Publicly Offered Research Group

1. T. Adachi, S. E. Park, Y. Kawai, A. Suter, Z. Salman, T. Prokscha, H. Okabe, J. Nakamura, H. Kuwahara and R. Kadono, “Cu-spin correlation in the overdoped regime of the electron-doped cuprate thin films of La2-xCexCuO4 without rare-earth moment”, Materials Research Meeting 2021 (MRM2021), Pacifico Yokohama North, Kanagawa / online, 2021/12/13-16
2. T. Adachi, “ミュオンビームによる高温超伝導物質の研究 －銅酸化物と鉄カルコゲナイド、将来は水素化物－”, 大阪大学大学院理学研究科物理学専攻物性物理学セミナー, Osaka Univ., Toyonaka campus, Osaka, 2021/11/16, Invited
3. T. Adachi, “ミュオンは超伝導の研究にどう役立ってきてどう役立っていくか”, 高エネルギー加速器研究機構物質構造科学研究所コロキウム, online, 2021/9/13, Invited
4. T. Adachi, “電子ドープ系はなぜTcが低いか, キャリアドープなしで超伝導は本当か?”, 低温工学・超電導学会東北・北海道支部第一回材料研究会合同研究会, online, 2021/8/20, Invited
5. S. Yonezawa, “Nematic superconductivity in doped Bi2Se3 topological superconductors”, 2nd PSI Condensed Matter Summer Camp 2021 “Coherence and Entanglement in Quantum Systems”, online, 2021/8/16-20, Invited
6. T. Adachi, “Chiral Superconductivity in BaPtAs1-xSbx with a Honeycomb Network”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13
7. Yue Sun, “Out-of-plane transport properties of FeSe single crystal”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13

C01 Planned Research Group

1. R. Arita, “Cluster multipole theory for functional antiferromagnets”, International Symposium on Frontier of Materials Science, online, 2022/1/7, Invited
2. N. Shannon, “Ca10Cr7O28: deconstructing a complex quantum spin liquid”, Pacifichem 2021, online, 2021/12/16-21, Invited
3. R. Arita, “First-principles study on high Tc superconductivity in superhydrides under high pressures”, Materials Research Meeting 2021 (MRM2021), Pacifico Yokohama North, Kanagawa / online, 2021/12/13-16, Invited
4. T. Tohyama, “Antiphase Oscillations in Spin Structure Factor of a Photoexcited Mott insulator”, Materials Research Meeting 2021 (MRM2021), Pacifico Yokohama North, Kanagawa / online, 2021/12/13-16
5. T. Tohyama, “Antiphase oscillations in the time-resolved spin structure factor of photoexcited two-dimensional Mott Insulator”, International Conference on Strongly Correlated Electron Systems 2020/21 (SCES2020/21), online, 2021/9/27-10/1
6. Y. Motome, “Topological spin crystals stabilized by itinerant frustration”, 84. Jahrestagung der DPG und DPG-Tagung der (84th Annual Meeting of the German Physical Society meeting), online, 2021/9/27-10/1, Invited
7. K. Shimizu, S. Okumura, Y. Kato, and Y. Motome, “Phase degree of freedom and topological properties of multiple-Q spin textures”, International Conference on Strongly Correlated Electron Systems 2020/21 (SCES2020/21) , online, 2021/9/27-10/2
8. Okumura, T. Morimoto, Y. Kato, and Y. Motome, “Quadratic optical responses in a chiral magnetic metal”, International Conference on Strongly Correlated Electron Systems 2020/21 (SCES2020/21), online, 2021/9/27-10/2
9. H. Ikeda, “はじめに”, 日本物理学会2021年秋季大会、共催シンポジウム講演（領域8、領域6）「鉄系超伝導研究の新展開—ネマティシティと新規超伝導相—」, online, 2021/9/20-23
10. H. Kontani, “FeSe系におけるNematicityと量子臨界性”, 日本物理学会2021年秋季大会、共催シンポジウム講演（領域8、領域6）「鉄系超伝導研究の新展開—ネマティシティと新規超伝導相—」, online, 2021/9/20-23
11. T. Tohyama, “Electric-pulse-driven spin and charge dynamics in Mott insulators”, The 2021 Europe Materials Society Meeting, online, 2021/9/20-23, Invited
12. T. Tohyama, “量子ビームの非弾性散乱実験と連携した強相関電子系の理論研究”, 第7回 大型実験施設とスーパーコンピュータとの連携利用シンポジウム, online, 2021/9/14, Invited
13. T. Tohyama, “Possible application of time-resolved resonant-inelastic x-ray scattering to photoexcited Mott insulators”, Hybrid Workshop on Resonant Inelastic and Elastic X-ray Scattering 2021, online + NY. USA, 2021/8/25-27, Plenary
14. N. Shannon, “Rank–2 U (1) spin liquid on the breathing pyrochlore lattice”, The 3rd international workshop on “Theoretical developments and experimental progresses in quantum matter – quantum magnetism and superconductors”, online, 20218/23-27, Invited
15. T. Tohyama, “Numerical simulations of spectroscopic properties in two-dimensional Mott insulator”, The XXXII IUPAP Conference on Computational Physics (CCP2021), online, 2021/8/1-5
16. M. Sato, “周期駆動非平衡量子系の理論の入門”, 第66回物性若手夏の学校, online, 2021/8/2, Invited
17. M. Sato, “THz-light High Harmonic Generation in Kitaev Spin Liquids -Difference from ferromagnets and semiconductors-”, Spintronics XIV, online, 2021/8/1-5, Invited
18. M. Kanega, T. N. Ikeda and M. Sato, “High Harmonic Generation in Quantum Spin Liquids: Analogy to Graphene, Semiconductors, and Superconductors”, The 11th International Conference on Metamaterials, Photonic Crystals and Plasmonics (META2021), Warsaw – Poland / online, 2021/7/20-23, Invited
19. R. Arita, “Development of ab initio Migdal-Eliashberg method and its application to superconducting hydrides”, Superconducting Hybrids@Extreme, Hotel Patria, Tatry, Slivakia / Online, 2021/6/28-7/2, Invited
20. N. Shannon, “Quantum spin nematics: quantum liquid crystals in magnets”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invited
21. Y. Motome, “Topological spin moiré and emergent electromagnetism”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invited
22. M. Sato, “Nonlinear optical responses in quantum spin liquids”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invited
23. T. Tohyama, “Antiphase Oscillations in the Time-Resolved Spin Structure Factor of Photoexcited Two-Dimensional Mott Insulator”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13

C01 Publicly Offered Research Group

1. Y. Yanase, “局所反転対称性のない結晶構造の超伝導”, 日本物理学会第77回年次大会（2022年）, online, 2022/3/15-19, Invited
2. K. Remund, R. Pohle, Y. Akagi, J. Romhányi, and N. Shannon, “Spin-1 magnets ー a u(3) formalism”, APS March Meeting 2022, McCormick Place Convention Center Chicago, Chicago, USA / online, 2022/3/14-18
3. H. Kondo and Y. Akagi, “Nonlinear magnon spin Nernst effect in antiferromagnets and strain-tunable pure spin current”, APS March Meeting 2022, McCormick Place Convention Center Chicago, Chicago, USA / online, 2022/3/14-18
4. S. Tsubota, H. Yang, Y. Akagi, and H. Katsura, “Symmetry-protected quantization of complex Berry Phases in non-Hermitian many-body systems”, APS March Meeting 2022, McCormick Place Convention Center Chicago, Chicago, USA / online, 2022/3/14-18
5. Y. Yanase, “Symmetry and topology in heavy fermion superconductors”, Young investigators online workshop on unconventional superconductivity in heavy fermions, online, 2022/1/17-19, Invited
6. Y. Akagi, “Topological Excitations and Their Emergent Phenomena in Quantum Spin Nematics”, International Conference on Frustration Topology, and Spin Textures, online + onsite (Kobe, Japan), 2021/12/22-23, Invited
7. T. Kawasaki, “Nonlinear rheology in jammed frictionless athermal systems”, KAKENHI PROJECT (NO. 21H01006) 駆動散逸系の非平衡現象に関する理論的研究, YITP, Kyoto Univ., Kyoto / online, 2022/12/3, Invited
8. T. Mizushima, “Pair-Density-Wave Fluctuation and Crystallization in Confined Superfluid 3He”, International Symposium on Quantum Fluids and Solids (QFS2021), online, 2021/8/10-19
9. R. Pohle, Y. Akagi, K. Remund, and N. Shannon, “Dynamics of spin-1 magnets from numerical simulations”, The XXXII IUPAP Conference on Computational Physics (CCP2021), online, 2021/8/1-5
10. Y. Akagi, H. Kondo, H. Katsura, “Topological Magnons from “Nematicity “, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13
11. K. Remund, R. Pohle, Y. Akagi, J. Romhányi, N. Shannon, “New Method for Studying Dynamics and Thermodynamics of Spin-1 Magnets: Application to the Ferroquadrupolar Order”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13
12. Pohle, Y. Akagi, K. Remund, N. Shannon, “Dynamics of a quantum liquid crystal from numerical simulation”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13
13. T. Kawasaki, “ジャミング転移点近傍における粒子軌道の可逆性に関する非平衡相転移”, 東京大学物性研究所短期研究会、ガラス転移と関連分野の最先端研究, ISSP, Kashiwa, Chiba, 2022/5/10-12, Invited
14. Y. Yanase, “Parity transition, parity violation, and topological superconductivity in heavy fermion superconductors”, Correlated Electrons Virtual International Seminars 2021 (CEVIS 2021), online, 2021/4/27, Invited
15. Y. Yanase, “Insulator-metal transition, topological superconductivity, and parity violation in UTe2”, MRS Spring 2021, online, 2021/4/18-23, Invited

D01 Planned Research Group

1. Y. Togawa, “カイラル物質と巨視的スピン応答”, 新世代研究所 スピントロニクス研究会 2021年度 第3回スピントロニクス研究会, Atami, Shizuoka, 2022/3/28-29, Invited
2. Y. Togawa, “Chirality-induced spin polarization in chiral crystals”, The 26th Hiroshima International Symposium on Synchrotron Radiation, Materials Science using VUV-SX Synchrotron Radiation : Towards the future HiSOR-II project, Hiroshima University, Faculty Club, Hiroshima / online, 2022/3/10-11, Invited
3. K. Kobayashi, “Mesoscopic physics and quantum sensing”, The first international workshop on Physics Frontiers with Quantum Science and Technology, Koshiba hall, Univ. of Tokyo, Tokyo / online, 2022/3/9-10, Invited
4. Y. Nakamura, H. Watanabe, K. M. Itoh, K. Sasaki, K. Kobayashi, and J. Ishi-Hayase, “Optimizing optical readout of a nitrogen-vacancy center with spin relaxation model”, 11th Workshop on Semiconductor/Superconductor Quantum Coherence Effect and Quantum Information, Awaji-Yumebutai, Awaji, Hyogo / online, 2022/2/21-23
5. Nishimura, T. Isogawa, K. M. Itoh, J. Ishi-Hayase, K. Sasaki, and K. Kobayashi, “Demonstration of large-amplitude Floquet engineering in diamond two-level systeml”, 11th Workshop on Semiconductor/Superconductor Quantum Coherence Effect and Quantum Information, Awaji-Yumebutai, Awaji, Hyogo / online, 2022/2/21-23
6. T. Arima, Y. Fujima, Y. Tokunaga, M. Akazawa, H. Takeda, H.-Y. Lee, J. H. Han, and M. Yamashita, “Thermal Hall Effect Induced by Magnetic Skyrmions”, International Conference on Frustration, Topology, and Spin Textures, Kobe International Conference Center, Kobe / online, 2021/12/22-23, Invited
7. K. Ishizaka, “Nanoscale imaging of acoustic waves triggered by photoinduced charge-density-wave dissolution”, Pacifichem 2021, online, 2021/12/16-21, Invited
8. K. Ishizaka, “Nanoscale Spatiotemporal Imaging of Magnetic Skyrmions by Ultrafast TEM”, Trans-scale Materials Science Workshop, online, 2021/12/3, Invited
9. T. Arima, “Activities of the Institute of Materials Structure Science from a Viewpoint of a User”, KEK 50th Anniversary Symposium, KEK, Tsukuba, Ibaraki / online, 2021/11/9-10, Invited
10. T. Suzuki, Y. Shinohara, Y. Lu, M. Watanabe, J. Xu, K. L. Ishikawa, H. Takagi, M. Nohara, N. Katayama, H. Sawa, M. Fujisawa, T. Kanai, J. Itatani, T. Mizokawa, S. Shin, and K. Okazaki, “Photo-induced insulator-to-metal transition in Ta2NiSe5 studied by time-resolved ARPES”, 7th International Conference on Photoinduced Phase Transitions and Cooperative Phenomena (PIPT7), online, 2021/11/8-18
11. Y. Togawa, “Chirality-Induced Macroscopic Spin Response”, 2nd International Meeting on Thin Film Interfaces, Surfaces and Composite Crystals, online, 2021/11/8-10, Invited
12. K. Ishizaka, “ARPES study on composite layered transition-metal dichalcogenides”, 2nd International Meeting on Thin Film Interfaces, Surfaces and Composite Crystals, online, 2021/11/8-10, Invited
13. D. Terasawa, S. Norimoto, T. Arakawa, M. Ferrier, A. Fukuda, K. Kobayashi, and Y. Hirayama, “Enhanced Zeeman Splitting in a Double-Layer Quantum Point Contact”, International Conferences of The 24th International Conference on Electronic Properties of Two-dimensional Systems (EP2DS-24), online, 2021/10/31-11/5
14. Y. Togawa, “Macroscopic spin functionality induced by chirality of materials”, International Workshop on Materials Science, online, 2021/10/30-31, Invited
15. K. Okazaki, “レーザーARPESによるFe(Se,S)の異方的ギャップ構造”, , 日本物理学会2021年秋季大会、共催シンポジウム講演（領域8、領域6）「鉄系超伝導研究の新展開—ネマティシティと新規超伝導相—」, online, 2021/9/20-23
16. Y. Togawa, “Spin Selection Effect in Chiral Inorganic Crystals”, VI. International workshop «Dzyaloshinskii-Moriya Interaction and Exotic Spin Structures», Vyborg, Russia / online, 2021/9-6-10, Invited
17. K. Kobayashi, “Three-body correlations in nonlinear response of correlated quantum liquid”, Frontiers of Quantum and Mesoscopic Thermodynamics 2021 (FQMT’21), online, 2021/7/18-24, Invited
18. Y. Toda, “Systematic study of photoinduced quasiparticle dynamics in Bi-based cuprates with out-of-plane disorder”, International Conference on Low-Energy Electrodynamics in Solids (LEES2020), Max-Planck-Institut für Physik komplexer Systeme, Dresden, Germany / online, 2021/7/5-8
19. T. Arima, “Thermal Hall effect induced by magnetic skyrmion lattice in GaV4Se8”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invited
20. Y. Toda, “Optical vortex generation and control in rotationally symmetry-breaking microcavities”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13
21. K. Okazaki, “BCS-BEC crossover controlled by electronic nematicity in FeSe1-xSx”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invited

D01 Publicly Offered Research Group

1. N. Kanazawa, “Emergence of spin-orbit coupled ferromagnetic surface state derived from Zak phase in a nonmagnetic insulator FeSi”, APS March Meeting 2022, McCormick Place Convention Center Chicago, Chicago, USA / online, 2022/3/14-18, Invited
2. H. Itoh, K. Yamamoto, M. Dressel, and S. Iwai, “Ultrafast photoresponse of depinned electronic-ferroelectric domains observed in strongly correlated organic conductors”, Material Research Meeting 2021 (MRM2021), Pacifico Yokohama North, Kanagawa / online, 2021/12/13-17
3. H. Itoh, “電子強誘電体(TMTTF)2Xにおける短距離/長距離電荷相関とその光励起ダイナミクス”, 2021年度物性研究所短期研究会　分子性固体研究の拡がり：新物質と新現象, ISSP, Kashiwa, Chiba / online, 2021/12/1-2, Invited
4. N. Kanazawa, “Formation of spin-hedgehog lattices and giant topological transport properties in chiral magnets”, Annual Meeting of DPG (German Physical Society), 2021/9/27-10/1, online, Invited
5. H. Itoh, “電子強誘電体の超高速光・テラヘルツ応答”, 日本物理学会2021年秋季大会(領域10シンポジウム「エキゾチック強誘電体の展開」), online, 2021/9/20-23, Invited
6. N. Kanazawa, “Emergent transport phenomena induced by spin-chirality fluctuations in a chiral magnet MnGe”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invited
7. H. Itoh, “電子型強誘電ドメイン構造が示す光・テラヘルツダイナミクス”, 量子ビームによる表面界面の光機能探究研究会(2021年度第5回), online, 2021/8/6, Invited
8. N. Kanazawa, “Emergent transport phenomena induced by spin-chirality fluctuations in a chiral magnet MnGe”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13, Invited
9. H. Itoh, “Ultrafast photoresponse of electronic-ferroelectric domains depinned by anion ordering in strongly correlated organic conductors”, International Conference on Quantum Liquid Crystals 2021（QLC2021）, online, 2021/5/11-13
10. N. Kanazawa, “Multiple magnetic phases and topological transport properties in chiral magnets”, SKYMAG 2021, online, 2021/3/31-4/1, Invited

A01 Planned Research Group

1. H. Ninomiya, “カルシウムフリー多層型銅酸化物における100 K級超伝導”, つくば-柏-本郷　超伝導かけはしプロジェクト　ワークショップ(4)「超伝導物質、トポロジカル物質」, NIMS つくば, Japan, 2021/3/26, Invited
2. K. Ohgushi, “梯子型鉄系化合物における量子液晶状態―超伝導とマルチフェロイクス―”, 第12回日本放射光学会若手研究会「放射光若手スクール」, online, 2021/3/5, Invited
3. T. Kimura, “Visualization of domain structures in unconventional ferroics”, The 8th Asian Conference on Crystal Growth and Crystal Technology (CGCT-8), online, 2021/03/1-3, Invited
4. T. Kimura, “Anomalous magnetic and magnetoelectric behaviors of square cupola antiferromagnets in high magnetic fields”, ARHMF2020 & KINKEN Materials Science School 2020 for Young Scientists, online, 2020/12/2, Invited
5. K. Kudo, “Development of New Superconductors with Ordered Laves Phase Structures”, The 33rd International Symposium on Superconductivity (ISS2020), AIST Auditorium, Tsukuba, Ibaraki, Japan & Online, 2020/12/1, Invited
6. T. Kimura, “Observation, manipulation, and understanding of coupled multiferroic domains in single-phase magnetoelectrics”, 2020 MRS Spring/Fall Meeting & Exhibit, online, 2020/11/27-12/4, Invited
7. T. Kimura, “Electrogyration as a tool to detect rotational structural distortion in a ferroaxial crystal”, Molecular Chirality Asia 2020, online, 2020/11/1, Invited
8. Y. Shimakawa, “遷移金属酸化物におけるイオンの配列および価数制御による新奇物性の探索”, 応用物理学会秋季学術講演会 「機能性酸化物のイオンと電子が織りなす蓄・創エネルギーデバイスの新展開」シンポジウム, online, 2020/9/10, Invited
9. A. Iyo, “バルクコンビナトリアルケミストリー法を用いた新超伝導体の探索”, 日本物理学会2020年秋季大会, online, 2020/9/8, Invited
10. K. Kudo, “秩序型ラーベス相化合物における新規超伝導体の開発”, 日本物理学会2020年秋季大会, online, 2020/9/8, Invited

A01 Publicly Offered Research Group

1. J. Matsuno, “Emergent Phenomena at Oxide Interfaces with Strong Spin-Orbit Coupling”, 2020 MRS Spring/Fall Meeting & Exhibit, online, 2020/11/27-12/4, Invited

B01 Planned Research Group

1. S. Kasahara, “FeSeにおけるBCS-BECクロスオーバーとFFLO超伝導”, つくば-柏-本郷　超伝導かけはしプロジェクト　ワークショップ(4)「超伝導物質、トポロジカル物質」, NIMS, つくば, Japan, 2021/3/26, Invited
2. T. Shibauchi, “Field-angle dependent Majorana gap in a Kitaev spin liquid state of α-RuCl3”, American Physical Society (APS), March Meeting, online, 2021/03/15-19, Invited
3. S. Kasahara, “Evidence for FFLO superconducting states in the BCS-BEC crossover superconductor FeSe”, American Physical Society (APS), March Meeting, online, 2021/03/15-19, Invited
4. T. Shibauchi, “Exotic superconducting states in FeSe-based materials”, PSI online condensed matter colloquium, online, 2021/3/12, Invited
5. H. Wadati, “X線とレーザーの組み合わせで見る遷移金属化合物のダイナミクス”, 第12回日本放射光学会若手研究会「放射光若手スクール」, online, 2021/3/4-5, Invited
6. T. Shibauchi, “Unconventional Superconducting States”, Frontiers of Condensed Matter Physics (FCMP) Columbia 2021 Spring Online Lectures, online, 2021/2/8, Invited
7. T. Shibauchi, “Exotic superconducting states in FeSe-based nematic superconductors”, RCQM Symposium on Fe-based Superconductivity, online, 2021/1/20, Invited
8. S. Kasahara, “イリジウム酸化物Sr2Ir1-xRhxO4におけるアナポール秩序と鉄系超伝導体FeSeにおけるFFLO超伝導”, 第14回物性科学領域横断研究会 (領域合同研究会), online, 2020/12/5, Invited
9. S. Kasahara, “FFLO superconducting states in FeSe studied in highmagnetic fields”, ARHMF2020 & KINKEN Materials Science School 2020 for Young Scientists, online, 2020/12/2, Invited
10. T. Shibauchi, “Experimental signatures of a Kitaev quantum spin liquid in α-RuCl3”, APCTP-KPS-JPS meeting on new trends in quantum and topological matters under extreme condition, online, 2020/11/6, Invited
11. T. Shibauchi, “電子ネマティック量子臨界点と超伝導”, 基研研究会「高温超伝導・非従来型超伝導研究の最前線：多様性と普遍性」, 京都大学基礎物理学研究所, Kyoto Japan / online, 2020/10/26, Invited
12. T. Shibauchi, “Possible transition to a topological ultranodal pair state in FeSe1-xSx superconductors”, SPICE Workshop on Topological Superconductivity in Quantum Materials, online, 2020/10/19, Invited
13. T. Hanaguri, “Spectroscopic-imaging STM studies of FeSe and related materials”, International Conference on Fugaku project Emergence and Functionality of Quantum Matter 2020（EFQM2020）, online, 2020/9/30, Invited
14. S. Kasahara, “超シャロウバンド構造を有する鉄系超伝導体の新奇量子物性”, ISSPワークショップ「量子物質研究の最近の進展と今後の展望」, online, 2020/9/24, Invited
15. T. Shibauchi, “電子ネマティック状態と高温超伝導”, 日本物理学会2020年秋季大会, online, 2020/9/8, Invited
16. T. Hanaruri, “Emergent superconducting states in Fe(Se,S) investigated by spectroscopic-imaging STM”, Theoretical Developments and Experimental Progresses in Quantum Matter: Dynamics of Quantum Magnetism, 2020/8/26-30, Invited
17. T. Shibauchi, “Experimental signatures of a Kitaev quantum spin liquid in α-RuCl3”, Correlated Electrons Virtual International Seminars (CEVIS2020), online, 2020/7/16, Invited
18. T. Shibauchi, “Time-Reversal Symmetry Breaking in FeSe-based Superconductors”, International Conference on Quantum Complex Matter 2020 (QCM 2020), online, 2020/6/8, Invited

B01 Publicly Offered Research Group

1. S. Yonezawa,  “ドープしたBi2Se3系におけるネマティック超伝導”, つくば-柏-本郷　超伝導かけはしプロジェクト　ワークショップ(4)「超伝導物質、トポロジカル物質」, NIMS, つくば, Japan, 2021/3/25, Invited
2. T. Adachi, “電子ドープ型銅酸化物におけるマルチ量子ビームで見るスピン相関と超伝導“, 応用物理学会2021年春期学術講演会, online, 2021-3/16-19, Invited
3. S. Yonezawa, Ivan Kostylev, Zhiwei Wang, Yoichi Ando, Yoshiteru Maeno, “Control of the nematic superconductivity of SrxBi2Se3 and its domains by uniaxial strain”, American Physical Society (APS), March Meeting, online, 2021/3/15-19
4. S. Yonezawa, “Multi-axial strain measurement of SrTiO3 and SrxBi2Se3”, FBG strain gauge meet up, online, 2021/2/22,
5. R. Taniguchi, “Development of FBG based multi-axial strain measurement”, FBG strain gauge meet up, online, 2021/2/22,
6. Yue Sun, “Depairing Jc and its anisotropy of Fe(Te,Se) single crystals”, The 33rd International Symposium on Superconductivity, AIST Auditorium, Ibaraki, Japan, 2020/12/3
7. S. Yonezawa, “Nematic superconductivity and its strain control in doped Bi2Se3 topological superconductors”, The 33rd International Symposium on Superconductivity, AIST Auditorium, Ibaraki, Japan, 2020/12/1, Invited
8. T. Adachi, “ミュオンスピン緩和で見る銅酸化物/鉄系超伝導体のスピンダイナミクス“, 東京大学駒場物性セミナー, online, 2020/11/27, Invited
9. T. Adachi, “Spin dynamics in superconducting thin films of iron chalcogenides and high-Tc cuprates probed by low-energy muon”, International Conference on Functional Materials Science (ICFMS2020), online, 2020/11/11, Invited
10. T. Adachi, ”低速ミュオンで見る鉄系／銅酸化物超伝導薄膜のスピンダイナミクス”, ミュオン科学研究会「ソフトマター・ミュオニウム・強相関電子系におけるミュオンサイエンスの進展」, online, 2020/11/9-10, Invited
11. Y. Shiomi, “Observation of a magnetopiezoelectric Effect in Antiferromagnetic Metals”, Online Young Research Leaders Group Workshop:Spin, Charge, and Heat Transport:From Symmetries to Emergent Functionalities, online, 2020/11/4, Invited
12. S. Yonezawa, “Domain control in the topological nematic superconductor SrxBi2Se3”, SPICE Workshop on Topological Superconductivity in Quantum Materials, online, 2020/10/21, Invited
13. R. Taniguchi, “Biaxial dilatometer using fiber Bragg grating for low temperatures”, Biaxial dilatometer using fiber Bragg grating for low temperatures, online, 2020/10/21
14. R. Araki, “Anisotropy of the upper critical field of Sr2RuO4 under in-plane magnetic field and current”, SPICE Workshop on Topological Superconductivity in Quantum Materials, online, 2020/10/19
15. Y. Shiomi, “反強磁性金属における磁気圧電効果の観測”, 日本物理学会2020年秋季大会, online, 2020/9/9, Invited
16. S. Yonezawa, Discovery of nematic superconductivity in doped Bi2Se3 and its domain control, Promoting Applied Sciences in Pakistan (PASP-20), online, 2020/7/20 Invited

C01 Planned Research Group

1. H. Kontani, “エッジ誘起奇周波数s波超伝導に対する強結合理論”, 日本物理学会第76回年次大会, online, 2021/3/14, Invited
2. R. Arita, “Quantum Effects in Superhydrides Under High Pressures”, Quantum Materials Symposium 2021 (QMS2021), online, 2021/2/4, Invited
3. Y. Motome, “Majorana fermions in the Kitaev model: past, present, and future”, 10th Workshop on Semiconductor/Superconductor Quantum Coherence Effect and Quantum Information/第10回半導体／超伝導体量子効果と量子情報の研修会, online, 2020/12/18, Invited
4. R. Arita, “Formation mechanism of helical Q structure in Gd-based skyrmion materials: A first-principles study”, APW-RIKEN-Tsinghua-Kavli workshop “Highlights on condensed matter physics”, online, 2020/9/2, Invited
5. M. Sato, “Theory for a spin current version of solar cell and shift current”, SPIE Optics + Photonics, online, 2020/8/24, Invited
6. Han Yan, Owen Benton, Ludo Jaubert, Nic Shannon, “A route to finding fractons ? Rank-2 U(1) spin liquid on the breathing pyrochlore lattice”, Correlated Electron Virtual International Seminar (CEVIS), online, 2020/7/2

C01 Publicly Offered Research Group

1. Y. Yanase, “A Theory from First-principles on Magnetism and Superconductivity in UTe2”, American Physical Society (APS), March Meeting, online, 2021/3/15-19, online, Invited
2. H. Kondo and Y. Akagi, “Dirac surface states in topological crystalline magnon insulators”, American Physical Society (APS), March Meeting, online, 2021/3/15-19
3. K. Remund, R. Pohle, Y. Akagi, J. Romhanyi, N. Shannon, “Equations of motions for spin-1 magnets − a u(3) formalism, suitable to investigate dynamical and thermodynamical properties”, American Physical Society (APS), March Meeting, online, 2021/3/15-19
4. Y. Akagi, “Topological Invariant for Bosonic Bogoliubov-de Gennes Systems with Disorder”, American Physical Society (APS), March Meeting, online, 2021/3/15-19
5. Y. Yanase, “Noncentrosymmetric superconductivity in atomic-layer materials”, SPring-8ユーザー協同体 顕微ナノ材料科学研究会 日本表面真空学会　放射光表面科学研究部会　プローブ顕微鏡研究部会　合同シンポジウム (Nanospec 2021), online, 2021/3/11
6. Y. Yanase, “Topological superconductivity in two-dimensional heterostructures”, International Symposium on Creation of Advanced Photonic and Electronic Devices 2021, online, 2021/3/10, Invited
7. Y. Yanase, “パリティを破る磁性体の光電流応答”, 日本学術振興会光電相互変換第１２５委員会　第２５３回研究会, online, 2021/3/5, Invited
8. Y. Yanase, “Overview of spin-triplet superconductivity in condensed matter physics”, CNS seminar, online, 2020/12/24, Invited
9. Y. Yanase, “Emergent linear and nonlinear responses in parity-violating antiferromagnet”, Seoul National University, CCES regular seminar, online, 2020/11/13, Invited
10. Y. Yanase, “Symmetry and topology of superconducting CeCoIn5 heterostructures”, The IMS at LANL convened a virtual workshop “20 years of the 115’s: past, present, and future”, online, 2020/11/10, Invited
11. Y. Yanase, “UTe2における金属絶縁体転移とバンド構造、トポロジカル超伝導”, 日本物理学会2020年秋季大会, online, 2020/9/9, Invited
12. Y. Akagi, “Noncommutative indices for disordered topological phases”, Localisation 2020, online, 2020/8/25, Invited
13. Y. Yanase, “Spin-orbit-coupled ferroelectric superconductivity and multiorbital effects in SrTiO3”, Microscopics of Superconductivity in Perovskite Oxides: Challenges, Hurdles and Enigmas (MISPOCHE-2020), online, 2020/5/4, Invited

D01 Planned Research Group

1. Y. Togawa, “キラル磁性体に現れる巨視的なスピン位相秩序”, 第61回SPring-8先端利用技術ワークショップ, online, 2021/3/29, Invited
2. K. Kobayashi, “量子液体における三体相関の実験的検出”, 日本物理学会 第76回年次大会, online, 2021/3/13, Invited
3. K. Ishizaka, “量子ビームを使った量子液晶の多次元計測”, 第12回日本放射光学会若手研究会「放射光若手スクール」, online, 2021/3/5, Invited
4. K. Ishizaka, “Micro-ARPES study on TMD atomically thin-flakes”, The 7th International Workshop on 2D Materials, online, 2021/2/18, Invited
5. K. Ishizaka, “k-space electronic structures in misfit transition-metal dichalcogenides”, International Meeting on Thin Film Interfaces and Composite Crystals, online, 2021/1/26, Invited
6. Moeta Tsukamoto, Kensuke Ogawa, Masashi Kawaguchi, Masamitsu Hayashi, Hayato Ozawa, Takayuki Iwasaki, Mutsuko Hatano, Kento Sasaki, Kensuke Kobayashi, “Magnetic domain structure imaging using diamond quantum sensor”, 10th Workshop on Semiconductor/Superconductor Quantum Coherence Effect and Quantum Information, online, 2020/12/18
7. Kensuke Ogawa, Moeta Tsukamoto, Kento Sasaki, Kensuke Kobayashi, “Development of temperature imaging technique using diamond quantum sensor”, 10th Workshop on Semiconductor/Superconductor Quantum Coherence Effect and Quantum Information, online, 2020/12/18
8. K. Kobayashi, “メゾスコピック系における非平衡ゆらぎ”, 応用物理学会北海道支部講演会, 北海道大学工学部, Sapporo, Japan, 2020/11/10, Invited
9. Mori Watanabe, Sanghyun Lee, Takuya Asano, Takashi Ibe, Masashi Tokuda, Hiroki Taniguchi, Daichi Ueta, Yoshinori Okada, Kensuke Kobayashi, and Yasuhiro Niimi, “Coexistance of quantum oscillation and magnetic hysteresis in CeTe3 thin films”, The 65th Annual Conference on Magnetism and Magnetic Materials (MMM 2020), online, 2020/11/6
10. T. Ohta, K. Sakai, H. Taniguchi, B. Driesen, Y. Okada, K. Kobayashi, and Y. Niimi, “Enhancement of coercive field in van der Waals ferromagnet Fe5GeTe2”, The 65th Annual Conference on Magnetism and Magnetic Materials (MMM 2020), online, 2020/11/4
11. K. Okazaki, “FeSe系における光誘起超伝導”, 京都大学基礎物理学研究所研究会「高温超伝導・非従来型超伝導研究の最前線：多様性と普遍性」, 湯川記念館パナソニック国際交流ホール + オンライン, 2020/10/26, Invited
12. K. Kobayashi, “Strongly Correlated Quantum Liquids Probed by Non-equilibrium Fluctuations”, RIKEN CEMS Colloquium, 理化学研究所創発物性科学研究センター, Wako, Saitama, Japan, 2020/9/23, Invited
13. K. Okazaki, “FeSe系における光誘起超伝導”, 日本物理学会2020年秋季大会, online 2020/9/8, Invited
14. K. Kobayashi, “Non-equilibrium Fluctuations in Correlated Quantum Liquids”, APW-RIKEN-Tsinghua-Kavli workshop on “Highlights on condensed matter physics”, online, 2020/9/4, Invited
15. K. Ishizaka, “Materials science driven by laser photoelectrons”, Les Houches School of Physics, online, 2020/7/22, Invited

D01 Publicly Offered Research Group

1. Hirotake Itoh, Kaoru Yamamoto, Martin Dressel, and Shinichiro Iwai, “Domain Structures and Photoinduced Dynamics of Electronic Ferroelectrics Investigated by Terahertz-Emission Microscopy”, Asian Spectroscopy Conference 2020 (ASC2020), online, 2020/12/9, Invited
2. N. Kanazawa, “Giant anomalous Hall effect from spin-chirality scattering in a chiral magnet”, ARHMF2020, online, 2020/12/1, Invited

A01 Planned Research Group

1. S. Pavan Kumar Naik, Shigeyuki Ishida, Yoshihisa Kamiya, Yoshinori Tsuchiya, Kenji Kawashima, Akira Iyo, Hiroshi Eisaki and Ogino Hiraku, “Noval CaKFe4As4 superconductor synthesis: Effect of annealing and Sn addition on the structure, microstructure and superconducting properties”, International Workshop on the Iron-based Superconductors(IBS2app), Best Western Hotel Regina Elena, Genoa, Italy, 2020/2/14
2. S. Ishida, “Unique critical current properties in 1144-type CaKFe4As4 superconductor”, International Workshop on the Iron-based Superconductors(IBS2app), Best Western Hotel Regina Elena, Genoa, Italy, 2020/2/14
3. H. Ogino, S. Ishida, Sugali P.K.N., Y. Kamiya, K. Kawashima, A. Iyo, H. Eisaki, “Characteristics and potential of application for 1144-type iron pnictide uperconductors”, International Workshop on the Iron-based Superconductors(IBS2app) , Best Western Hotel Regina Elena, Genoa, Italy, 2020/2/13, Invited
4. Y. Higashi, “二次元原子層結晶超伝導体の面内臨界磁場と準粒子状態密度: 非磁性散乱とパリティ混成効果”, 凝縮系物理学インフォーマルセミナー, 京都大学物理学第一教室凝縮系理論グループ, 2020/1/22, Invited
5. T. Kimura, “Magnetoelectric effect in visible light region due to ferroic order of magnetic multipole moments”, The 20th Korea-Taiwan-Japan Symposium on Strongly Correlated Electron Systems, Seoul National University, Seoul, Korea, 2020/1/8, Invited
6. S. Ishida, “Unique vortex pinning properties in iron-based superconductors”, 10th ACASC/2nd Asian-ICMC/CSSJ Joint Conference, Okinawa Convention Center, Okinawa, Japan, 20201/7, Invited
7. S. Ishida, “鉄系超伝導体の相図と臨界電流特性”, 第27回渦糸物理ワークショップ, 京都大学理学研究科セミナーハウス, Kyoto, Japan, 2019/12/18, Invited
8. Y. Shimakawa, “Negative and positive thermal expansion-like volume changes in intermetallic charge transfer oxides”, 3rd International Symposium on Negative Thermal Expansion and Related Materials (ISNTE-3), University of Edinburgh, Edinburgh, UK, 2019/12/13, Invited
9. H. Ogino, S. Ishida, Sugali P.K.N., Y. Kamiya, K. Kawashima, A. Iyo, H. Eisaki, “Superconducting properties of 1144-type iron pnictide superconductors”, Materials Research Meeting (MRM2019), Yokohama Symposia, Kanagawa, Japan, 2019/12/13, Invited
10. A. Iyo, “Superconductivity in a New Iron Arsenide LaFe2As2”, Materials Research Meeting (MRM2019), Yokohama Symposia, Kanagawa, Japan, 2019/12/11
11. S. Ishida, “Unique defect structure and advantageous vortex pinning properties in CaKFe4As4”, 32nd International Symposium on Superconductivity (ISS2019), Miyako Messe, Kyoto, Japan, 2019/12/4, Invited
12. T. Kimura, “Observation and manipulation of coupled order parameters and domains in magnetoelectric multiferroics”, 2019 MRS Fall Meeting & Exhibit, Hynes Convention Center, Boston, USA, 2019/12/3, Invited
13. A. Iyo, “Superconductivity in Uncollapsed Tetragonal LaFe2As2”, 32nd International Symposium on Superconductivity (ISS2019), Miyako Messe, Kyoto, Japan, 2019/12/3
14. K. Ohgushi, “Exploring novel electronic properties near Kitaev spin liquid”, 3rd Asia-Pacific Workshop on Quantum Magnetism, Tsung-Dao Lee Institute, Shanghai, China, 2019/11/24, Invited
15. Y. Okamoto, “One-Dimensional Telluride Ta4SiTe4 as an Efficient Thermoelectric Material for Low-Temperature Applications”, 14th Asia-Pacific Physics Conference（APPC2019), Borneo Convention Centre Kuching, Sarawak, Malaysia, 2019/11/18, Invited
16. Y. Shimakawa, “Crystal and magnetic structures of perovskite-structure oxides containing unusual high valence Fe”, 3rd Asia-Oceania Conference on Neutron Scattering (AOCNS 2019), Howard Beach Resort Kenting, Kenting, Taiwan, 2019/11/18, Invited
17. Y. Shimakawa, “Control of magnetism in ordered Perovskite-structure oxides”, Joint KU – VUW Workshop 2019 -Science, Engineering and Applications of Electric and Electronic Materials-, Portage, New Zealand, 2019/11/11, Invited
18. K. Kudo, “Superconductivity induced by breaking dimers of IrTe2 and AuTe2”, Pan Pacific International Symposium on Chalcogenide Functional Materials, Kumamoto University, Kumamoto, Japan, 2019/11/10-11, Invited
19. T. Kimura, “Coupled responses of multiferroic domains to external fields in single-phase multiferroics”, The 5th International Confernece on Advanced Electromaterials（ICAE2019), Ramada Plaza Jeju Hotel, Jeju, Korea, 2019/11/5, Invited
20. K. Kudo, S. Ioka, N. Happo, H. Ota, Y. Ebisu, K. Kimura, T. Hada, T. Kimura, H. Tajiri, S. Hosokawa, K. Hayashi, and M. Nohara, “Influence of Positional Fluctuations of Arsenic Atoms on Superconductivity of Pr-Substituted CaFe2As2 Revealed by X-Ray Fluorescence Holography”, 14th International Conference on the Structure of Non-crystalline Materials (NCM14), ニチイ学館　神戸ポートアイランドセンター, 2019/11/3-8
21. T. Kimura, “Coupled order parameters and domains in magnetoelectric multiferroics breaking both space inversion and time reversal symmetries”, The 13th Pacific Rim Conference on Ceramic Societies (PACRIM13), Okinawa Convention Center, Okinawa, Japan, 2019/10/29, Invited
22. Y. Shimakawa, “Oxygen incorporation and release behaviors in perovskite-structure oxides”, Sustainable Industrial Processing Summit & Exhibition (SIPS2019), The Coral Beach Hotel & Resort Rooms & Suites, Paphos, Cyprus, 2019/10/24, Invited
23. K. Kudo, (Y. Saito, T. Takeuchi, T. Adachi, H. Ota, and M. Nohara), “Exploration of Chiral Superconductivity in Hexagonal BaPtAs and BaPtSb”, International Conference on Strongly Correlated Electron Systems 2019 (SCES2019), Okayama Convention Center, Okayama, Japan, 2019/9/27
24. Y. Okamoto, “Equilateral-Triangular Trimer Formation in β-Pyrochlore Oxide CsW2O6”, International Conference on Strongly Correlated Electron Systems 2019 (SCES2019), Okayama Convention Center, Okayama, Japan, 2019/9/24
25. K.Ohgushi, “Ferroic Order of Magnetic Quadrupoles in BaMn2As2”, J-Physics 2019 International Conference & KINKEN-WAKATE 2019 Multipole Physics, Kobe University, Rokkodai 2nd Campus, Kobe, Japan, 2019/9/21, Invited
26. T. Kimura, “Insights into magnetoelectric-coupling mechanisms of multiferroic hexaferrites from domain observations”, The 11th APCTP Workshop on Multiferroics, National Synchrotron Radiation Research Center, Shinchu, Taiwan, 2019/9/20, Invited
27. Y. Okamoto, “Superconductivity in PtSbS with Noncentrosymmetric and Cubic Crystal Structure”, J-Physics 2019 International Conference & KINKEN-WAKATE 2019 Multipole Physics, Kobe University, Rokkodai 2nd Campus, Kobe, Japan, 2019/9/19, Invited
28. S. Ishida, “Unique defect structure and advantageous vortex pinning properties in CaKFe4As4”, 14th European Conference on Applied Superconductivity (EUCAS2019), Scottish Event Campus, Glasgow, Scotland, 2019/9/4
29. Y. Higashi, “多層型物質のトポロジカル超伝導”, 応用物理学会量子化磁束動力学シミュレーション研究グループ2019年度夏のセミナー, 福岡工業大学セミナーハウス, Fukuoka, Japan, 2019/8/22, Invited
30. T. Kimura, “Observation, control, and understanding of coupled multiple domains in multiferroics”, International Conference on Advanced Materials Modelling, Ecole Nationale Supérieure de Chimie de Rennes, Rennes, France, 2019/7/1, Invited

B01 Planned Research Group

1. S. Kasahara, “FeSeの強磁場熱輸送測定：FFLO状態”, 日本物理学会第75回年次大会, 名古屋大学, 東山キャンパス, 2020/3/16, (中止だが発表は成立）
2. T. Shibauchi, “Divergent nematic susceptibility near the pseudogap critical point in Bi-cuprate superconductors”, 2020 APS March meeting, Colorado Convention Center, Denver, CO, USA, 2020/3/5, Invited, Canceled
3. H. Hirori, Y. Kanemitsu, “Extreme nonlinear optical phenomena caused by strongly driving electronic states in solids”, The 3rd IRCCS – The 2nd Reaction Infography Joint Internationa Symposium: “Reaction Imaging Meets Materials Science”, Nagoya University, Nagoya, Japan, 2020/1/31, Invited
4. T. Shibauchi, “FeSe系超伝導体におけるネマティシティと特異な超伝導物性”, つくば-柏-本郷 超伝導かけはしプロジェクトワークショップ, National Institute for Materials Science (NIMS), Tsukuba, Ibaraki, 2020/1/16, Invited
5. T. Hanaguri, “鉄系超伝導体FeSeにおける新奇超伝導状態”, つくば-柏-本郷 超伝導かけはしプロジェクトワークショップ, National Institute for Materials Science (NIMS), Tsukuba, Ibaraki, 2020/1/16, Invited
6. T. J. Sato, “Topological magnetic textures and topological magnetic excitations”, The 20th Korea-Taiwan-Japan Symposium on Strongly Correlated Electron Systems, Seoul National University, Seoul, Korea, 2020/1/8, Invited
7. S. Kasahara, “FeSeにおけるFFLO超伝導”, 第27回渦糸物理ワークショップ, 京都大学理学研究科セミナーハウス, Kyoto, Japan, 2019/12/18, Invited
8. S. Kasahara, “Bond vs. Diagonal Nematicity in the Pseudogap Phase of High-Temperature Cuprate Superconductors”, Materials Research Meeting (MRM2019), Yokohama Symposia, Kanagawa, Japan, 2019/12/13, Invited
9. H. Wadati, “Time-resolved x-ray measurements for observing spin/charge dynamics”, OptoX-NANO 2019 conference, Okayama Convention Center, Okayama, Japan, 2019/12/4, Invited
10. Y. Shimizu, “NMR study on Kitaev spin liquid candidate a-RuCl3”, The 3rd Asia-Pacific workshop on Quantum Magnetism, Tsung-Dao Lee Institute, Shanghai, China, 2019/11/24-30, Invited
11. K. Nawa, “Investigations on low-dimensional and frustrated magnets”, 3rd Asia-Oceania Conference on Neutron Scattering（AOCNS2019）, Howard Beach Resort Kenting, Kenting, Taiwan, 2019/11/20, Invited
12. Kazuhiro Nawa, Kimihiko Tanaka, Nobuyuki Kurita, Taku J Sato, Haruki Sugiyama, Hidehiro Uekusa, Seiko Ohira-Kawamura, Kenji Nakajima, and Hidekazu Tanaka, “Topological triplon band and edge states in the dimerized antiferromagnet”, 3rd Asia-Oceania Conference on Neutron Scattering（AOCNS2019）, Howard Beach Resort Kenting, Kenting, Taiwan, 2019/11/18
13. D. Okuyama, M. Bleuel, J.S. White, Q. Ye, J. Krzywon, G. Nagy, Z.Q. Im, M. Bartkowiak, H. M. Rønnow, S. Hoshino, J. Iwasaki, N. Nagaosa, A. Kikkawa, Y. Taguchi, Y. Tokura, D. Higashi, J. D. Reim, Y. Nambu, and T. J. Sato, “Plastic deformation of the moving magnetic skyrmion lattice in MnSi under electric current flow”, 3rd Asia-Oceania Conference on Neutron Scattering（AOCNS2019）, Howard Beach Resort Kenting, Kenting, Taiwan, 2019/11/18
14. T. J. Sato, “Nonreciprocal Magnons in Noncentrosymmetric Magnets”, 3rd Asia-Oceania Conference on Neutron Scattering（AOCNS2019）, Howard Beach Resort Kenting, Kenting, Taiwan, 2019/11/17, Invited
15. T. Shibauchi, “α-RuCl3における磁場中比熱：マヨラナギャップの角度依存性”, 新学術領域研究「トポロジーが紡ぐ物質科学のフロンティア」第12回トポロジー連携研究会「マヨラナ励起の実証に向けて」, Tokyo Institute of Technology, Ookayama Campus, Tokyo, Japan, 2019/11/14, Invited
16. Y. Shimizu, “NMRによるα-RuCl3の分数化励起の観測”, 新学術領域研究「トポロジーが紡ぐ物質科学のフロンティア」第12回トポロジー連携研究会「マヨラナ励起の実証に向けて」, Tokyo Institute of Technology, Ookayama Campus, Tokyo, Japan, 2019/11/14, Invited
17. S. Kasahara, “FeSeにおける強磁場超伝導相：FFLO状態”, 基研研究会「電子相関が生み出す超伝導現象の未解決問題と新しい潮流」, Yukawa Institute for Theoretical Physics, Kyoto University, Kyoto, Japan, 2019/10/30, Invited
18. T. Shibauchi, “FeSe系超伝導体における最近の展開”, 基研研究会「電子相関が生み出す超伝導現象の未解決問題と新しい潮流」, Yukawa Institute for Theoretical Physics, Kyoto University, Kyoto, Japan, 2019/10/28, Invited
19. T. Hanaguri, “Nematicity and superconductivity in the iron-based superconductor FeSe”, IBS-RIKEN Joint Conference, IBS Science Culture Center S221-B, Daejeon, Korea, 2019/10/18, Invited
20. T. J. Sato, “Topological Magnetic Textures and Excitations”, International Conference on Advanced Material Technology (ICAMT) in Conjuntion with International Conference of Multidisciplinary Research (ICMR) 2019（ICAMT-ICMR2019), Aston Sentul Lake Resort & Conference Center, Bogor, Indonesia, 2019/10/8, Invited
21. T. Hanaguri, “Nematicity, small Fermi energy and superconductivity in FeSe”, International Conference on Strongly Correlated Electron Systems 2019 (SCES2019), Okayama Convention Center, Okayama, Japan, 2019/9/28, Invited
22. T. Shibauchi, “Time-Reversal Symmetry Breaking in the Nematic Superconductor FeSe”, International Conference on Strongly Correlated Electron Systems 2019 (SCES2019), Okayama Convention Center, Okayama Japan, 2019/9/26, Invited
23. H. Wadati, “Ultrafast x-ray study of charge/spin dynamics”, International Conference on Strongly Correlated Electron Systems 2019 (SCES2019), Okayama Convention Center, Okayama, Japan, 2019/9/25, Invited
24. T. Shibauchi, “Field-angular variations of heat capacity and thermal Hall conductance in the Kitaev material a-RuCl3”, The 2nd Workshop on Spin-Orbit Coupled Topological States (SOCTS2019), POSCO International Center(PIC), Pohang, Korea, 2019/9/19, Invited
25. Y. Shimizu, “固体核磁気共鳴を用いた量子スピン液体の実験”, 2019 Autumn Meeting Symposium, The Physical Society of Japan, Gifu University, Yanagido Campus, Gifu, Japan, 2019/9/10, Invited
26. T. Shibauchi, “Summary: Superconductivity mechanisms and novel physical properties of BiS2-based layered compounds (Division 8)”, 2019 Autumn Meeting, The Physical Society of Japan, Gifu University, Yanagido Campus, Gifu, Japan, 2019/9/10, Invited
27. T. Shibauchi, “Electronic nematicity in the pseudogap state in cuprates”, Quantum Criticality and Topology in Correlated Electron Systems, Max Planck Institute for the Physics of Complex Systems, Dresden, Germany, 2019/8/5, Invited
28. T. Shibauchi, “Electronic nematicity in the pseudogap state in cuprates”, The 10th Condensed Matter Physics in the Cities (Week Two), Grand Amphi, Institut Pierre Gilles De Gennes, Paris, France, 2019/7/11, Invited

 C01 Planned Research Group

1. Y. Motome, “Magnetic vortices, skyrmions, and hedgehogs stabilized by long-range multiple-spin interactions”, DPG Spring Meeting, Tecnical University Dresden, Dresden, Germany, 2020/3/19, Invited, canceled
2. R. Arita, “Ab initio Eliashberg study on anharmonicity, zero-point motion, and retardation effect in superhydrides”, Quantum Matter: Computation meets Experiment, Aspen Center for Physics, Aspen, USA, 2020/3/10, Invited
3. Y. Motome, J. Yoshitake, J. Nasu, Y. Kato, “Majorana-magnon crossover by a magnetic field in the Kitaev model”, 2020 APS March meeting, Colorado Convention Center, Denver, USA, 2020/3/3
4. R. Arita, “Quantum crystal structure in the 250-kelvin superconducting lanthanum hydride”, International Symposium on HYDROGENOMICS, The Hotel Monterey Edelhof Sapporo, Sapporo, Japan, 2020/1/8, Invited
5. R. Arita, “Topological superconductivity in elemental hcp thallium”, Materials Research Meeting (MRM2019), Yokohama Symposia, Kanagawa, Japan, 2019/12/13, Invited
6. Y. Motome, “Majorana signatures in Kitaev magnets under magnetic fields”, The 3rd Asia-Pacific workshop on Quantum Magnetism, Tsung-Dao Lee Institute, Shanghai, China, 2019/11/24-30, Invited
7. Y. Motome, “Majorana Excitations in Kitaev Magnets under a Magnetic Field”, 14th Asia-Pacific Physics Conference（APPC2019), Borneo Convention Centre Kuching, Sarawak, Malaysia, 2019/11/19, Invited
8. Y. Motome, “Kitaevスピン液体におけるマヨラナ励起の検証：現状と今後”, 新学術領域研究「トポロジーが紡ぐ物質科学のフロンティア」第12回トポロジー連携研究会「マヨラナ励起の実証に向けて」, Tokyo Institute of Technology, Ookayama Campus, Tokyo, Japan, 2019/11/14, Invited
9. Y. Motome, “磁性体に現れるマヨラナ粒子”, 令和元年度 東北大学 電気通信研究所 共同プロジェクト研究会 「固体素子における非平衡ダイナミクスの精緻な理解と機能開拓」, 仙台市、宮城県, 2019/11/1-2, Invited
10. M. Sato, “Theoretical proposals for optical control of spin current and spin textures”, The 19th International Conference on Solid Films and Surfaces (ICSFS19), ASTER PLAZA, Hiroshima, Japan, 2019/10/9, invited
11. M. Sato, “Laser- and heat-driven phenomena in correlated magnets”, Trends in Theory of Correlated Materials 2019 (TTCM2019), Maskawa Hall, Maskawa Building for Education and Research, Kyoto, Japan, 2019/10/9, Invited
12. H. Kontani, “Unconventional density waves and novel pairing mechanism in strongly correlated electron systems”, International Conference on Electron Correlation in Superconductors and Nanostructures (ECSN-2019), hotel “Mozart”, Odessa, Ukraine, 2019/10/8, Invited
13. T. Tohyama, “Dynamical spin and charge structure factors in cuprate superconductors”, International Conference on Electron Correlation in Superconductors and Nanostructures (ECSN-2019), hotel “Mozart”, Odessa, Ukraine, 2019/10/7, Invited
14. Y. Motome, “Fractional spin dynamics in Kitaev magnets”, KITP Conference: Topological Quantum Matter: From Fantasy to Reality, Kavli Institute for Theoretical Physics, Santa Barbara, USA, 2019/10/1, Invited
15. T. Tohyama, “超高分解能化で期待される固体物理学での新展開”, 次世代放射光超高分解能 RIXS ワークショップ, ISSP, Chiba, Japan, 2019/10/1, Invited
16. H. Kontani, “Origin of Diverse Nematicity in Fe-based superconductors: B2g bond order in AFe2As2(A=Cs, Rb) and antiferro-nematic order in Ba122 compounds”, International Conference on Strongly Correlated Electron Systems 2019 (SCES2019), Okayama Convention Center, Okayama, Japan, 2019/9/26
17. Yan Han, Rico Pohle, Andreas Thomasen, Judit Romhanyi, Nic Shannon, “From half moons to Chern numbers”, “Theoretical and Experimental Magnetism Meeting (TEMM) 2019 and UK-China Workshop on Strongly ​​Correlated Electron Systems, IoP Magnetism – TCM joint group symposium”, Cosener’s House, Abingdon, Oxfordshire, UK, 2019/7/17, Invited
18. Nic Shannon, “An Introduction to Quantum Spin Liquids”, 3rd TRR 80 Summer School “Functionality of Correlated Materials, Frauenwoerth im Chiemsee, Germany, 2019/6/27, Invited
19. T. Tohyama, “Spin Excitations in Doped Mott insulators”, The 60th REIMEI International Workshop “New excitations for spintronics seen with quantum beams, Institute for Materials Research (IMR), Tohoku Univiersity, 2019/2/27, Invited

D01 Planned Research Group

1. Y. Toda, “Vortex mode generation from astigmatic semiconductor microcavity”, Seminar of the Department of complex matter, Institute Jozef Stefan, Ljubljana, Slovenia, 2020/2/27, Invited
2. Mori Watanabe, Sanghyun Lee, Takuya Asano, Takashi Ibe, Masashi Tokuda, Hiroki Taniguchi, Ueta Daichi, Yoshinori Okada, Kensuke Kobayashi and Yasuhiro Niimi, “Hall and butterfly-shaped magnetoresistance effects in atomically thin CeTe3 films”, New Perspective in Spin Conversion Science (NPSCS2020), Kashiwa-no-ha Conference Center、Kashiwa, Japan, 2020/2/3-4
3. T. Ohta, K. Sakai, H. Taniguchi, B. Driesen, Y. Okada, K. Kobayashi, and Y. Niimi, “Measurements of anomalous Hall Effect in van der Waals ferromagnet Fe5GeTe2”, New Perspective in Spin Conversion Science (NPSCS2020), Kashiwa-no-ha Conference Center, Kashiwa, Japan, 2020/2/3-4
4. S. Suzuki, T. Hajiri, R. Miki, H. Asano, K. Zhao, P. Gegenwart, K. Kobayashi, and Y. Niimi, Spin transport measurement in noncollinear antiferromagnet Mn3Ni1-xCuxN, New Perspective in Spin Conversion Science (NPSCS2020), Kashiwa-no-ha Conference Center, Kashiwa, Japan, 2020/2/3-4
5. M. Tokuda, H. Taniguchi, T. Arakawa, D. Yue, X. X. Gong, X. F. Jin, K. Kobayashi, and Y. Niimi, “Upper critical field measurements in Bi/Ni superconducting bilayer film Upper critical field measurements in Bi/Ni superconducting bilayer film”, New Perspective in Spin Conversion Science (NPSCS2020), Kashiwa-no-ha Conference Center, Kashiwa, Japan, 2020/2/3-4
6. K. Ishizaka, “Exploring topological phases in transition-metal ditellurides MTe2”, Materials Research Meeting (MRM2019), Yokohama Symposia, Kanagawa, Japan, 2019/12/11, Invited
7. D. Terasawa, S. Norimoto, T. Arakawa, M. Ferrier, A. Fukuda, K. Kobayashi, and Y. Hirayama, “Spin Splitting Induced by Spin – Orbit Interaction in a Double-Layer Quantum Point Contact”, International Symposium on Hybrid Quantum Systems 2019 (HQS2019), Kunibiki Messe, Matsue, Shimane, Japan, 2019/12/1
8. Mori Watanabe, Takashi Ibe, Masashi Tokuda, Hiroki Taniguchi, Yoshinori Okada, Kensuke Kobayashi, and Yasuhiro Niimi, “Hall measurements in atomically thin CeTe3 films”, International Symposium for Nano Science (ISNS2019), Toyonaka Campus, Osaka University, Osaka, Japan, 2019/11/27
9. K. Kobayashi, “Non-equilibrium Fluctuations in Correlated Quantum Liquids”, Workshop of ENS-Utokyo, Hongo Campus, University of Tokyo, Tokyo, Japan, 2019/11/25, Invited
10. H. Taniguchi, M. Watanabe, M. Tokuda, S. Suzuki, T. Ibe, T. Arakawa, H. Yoshida, H. Ishizuka, K. Kobayashi, and Y. Niimi, “Butterfly-shaped magnetoresistance in Ising system induced by spin fluctuations”, 2019 Annual Conference on Magnetism and Magnetic Materials (MMM 2019), the Rio All-Suites Hotel & Casino, Las Vegas, Nevada, USA, 2019/11/7
11. H. Taniguchi, M, Tokuda, T. Taniguchi, T. Arakawa, B. Go, T. Ziman, S. Maekawa, K. Kobayashi, and Y. Niimi, “Determination of Spin Freezing Temperature in Nanoscale Spin Glasses”, 2019 Annual Conference on Magnetism and Magnetic Materials (MMM 2019), the Rio All-Suites Hotel & Casino, Las Vegas, Nevada, USA, 2019/11/7
12. M. Tokuda, N. Kabeya, K. Iwashita, H. Taniguchi, T. Arakawa, D. Yue, X. X. Gong, X. F. Jin, K. Kobayashi, and Y. Niimi, “Spin transport measurements in metallic Bi/Ni nanowires”, 2019 Annual Conference on Magnetism and Magnetic Materials (MMM 2019), the Rio All-Suites Hotel & Casino, Las Vegas, Nevada, USA, 2019/11/5
13. Y. Toda, “OAM mode property of broad-area VCSEL studied by optical injection”, The 38th JSST Annual International Conference on Simulation Technology, New Wel City Miyazaki, Miyazaki. Japan, 2019/11/5
14. K. Kobayashi, “磁気的トンネル接合における非線形伝導”, 令和元年度 東北大学 電気通信研究所 共同プロジェクト研究会 「固体素子における非平衡ダイナミクスの精緻な理解と機能開拓」, 仙台市、宮城県, 2019/11/1-2, Invited
15. K. Okazaki, “レーザーARPES によるFe(Se,S) におけるBCS-BEC クロスオーバー領域の超伝導状態の観測”, 基研研究会「電子相関が生み出す超伝導現象の未解決問題と新しい潮流」,Yukawa Institute for Theoretical Physics, Kyoto University, Kyoto, Japan, 2019/10/30, Invited
16. K. Ishizaka, “Ultrafast photoacoustic phenomena in transition-metal dichalcogenide thin-flake”, Recent Progress in Graphene & 2D Materials Research (RPGR2019), Kunibiki Messe, Matsue, Shimane, Japan, 2019/10/10, Invited
17. Y. Toda, “Ultrafast transient reflectivity measurements of optimally-doped Bi2212 with disorder”, International Conference on Electron Correlation in Superconductors and Nanostructures (ECSN-2019), hotel “Mozart”, Odessa, Ukraine, 2019/10/8, Invited
18. K. Ishizaka, “Exploring topological phases in transition-metal ditellurides MTe2”, The Future of Topological Materials, Princeton Center for Theoretical Science, Princeton, NJ, USA, 2019/10/2, Invited
19. Y. Togawa, “Nontrivial electrical transport on chiral magnetic materials”, International Conference on Strongly Correlated Electron Systems 2019 (SCES2019), Okayama Convention Center, Okayama, Japan, 2019/9/25, Invited
20. K. Okazaki, “鉄系超伝導体FeSe1-xSxの高分解能光電子分光”, 第24回HiSOR研究会「最先端光電子分光で拓く量子物質科学研究に関するワークショップ」, Hiroshima University, Higashi-Hiroshima, Hiroshima, 2019/9/5, Invited
21. K. Kobayashi, “ゆらぎで探る量子液体”, 第9回KEK連携コロキウム, KEK, Tsukuba campus, Ibaraki, Japan, 2019/7/29, Invited
22. Y. Togawa, “Anomalous physical responses on chiral magnetic materials”, V. International workshop «Dzyaloshinskii-Moriya Interaction and Exotic Spin Structures», HOTEL KARELIA & Spa, Petrozavodsk, Russia, 2019/7/8, Invited
23. K. Kobayashi, “ゆらぎは語る ― 人工原子における非平衡量子液体”, 第106回物理学教室コロキウム, The University of Tokyo, Hongo campus, Tokyo, Japan, 2019/6/28, Invited
24. Y. Toda, “Optical time-resolved studies of Bi-based cuprates with out-of-plane disorder”, Superstripes 2019, Hotel Continental Terme, Ischia, Italy, 2019/6/23-29, Invited

B01 Planned Research Group

1. T. Hanaguri, Y. Kohsaka, “分光イメージング走査型トンネル顕微鏡”, 156pp., (共立出版, 2023/12/11)

B01 Publicly Offered Research Group

1. Y. Shiomi, “A New Introduction to Condensed Matter Physics” 216pp., (Asakura Publishing Co., Ltd., 2023/8/23)

C01 Publicly Offered Research Group

1. T. Mizushima, “Encyclopedia of Condensed Matter Physics”, Editor: T. Chakraborty (Elsevier, 2023/10/3)

D01 Planned Research Group

1. R. Natsunaga, K. Okazaki, “Encyclopedia of Condensed Matter Physics”, Editor: T. Chakraborty (Elsevier, 2023/10/3)

A01 Planned Research Group

1. Vincent G. Harris (Editor), Parisa Andalib, Jean-Marie Le Breton, Virginie Nachbaur, Ogheneyunume Fitchorova, Yingli Liu, Yu Wang, Marina Koledintseva,  Konstantin Rozanov, Charalampos A. Stergiou, John D. Adam, Douglas K. Linkhart, Anton L. Geiler, Tsuyoshi Kimura, Nian Sun, Mingzhong Wu, Gopalan Srinivasan, Orestis Kalogiro , “ Modern Ferrites: Emerging Technologies and Applications, Volume 2”, 396pp. Contribution writing : Chapter 8, Ferrite-Based Magnetoelectronics, p.309-323,（Wiley, 2022/11）

C01 Planned Research Group

1. R. Arita, “実践計算物理学:物理を理解するためのPython活用法”, 208pp., (共立出版, 2023/1)
2. R. Arita, “多体電子構造論” , 208pp., (内田老鶴圃, 2022/9 )

B01 Publicly Offered Research Group

1. Tomasz Blachowicz and Andrea Ehrmann / translation :Y. Shiomi, “スピントロニクスの基礎と応用　理論、モデル、デバイス”, 336pp.（Kodansya, 2021/7/28）

C01 Planned Research Group

1. M. Sato, “周期駆動非平衡量子系の理論の入門（第66回物性若手夏の学校集中ゼミ）” , pp.1-26, (物性研究(電子版), 2022/3 )
2. R. Arita, “高圧下水素化物の室温超伝導”,126pp., (共立出版, 2022/1)

A01 Publicly Offered Research Group

1. J. Shiogai, T. Nojima, A. Tsukazaki, “ポストグラフェン材料の創製と用途開発最前線”, 第II編第3章第5節 “FeSe 電気二重層トランジスタの開発” p237-p247 (NTS, 2020/4)

B01 Planned Research Group

1. *H. Wadati, Y. Zhang, H. Setoyama, Y. Hotta, and R. Nemoto, Adv. X-Ray. Chem. Anal., Japan 52, Ⅲ．分析応用 “Operando XAFS Measurements of V-oxide Thin-film Devices Under Electric Voltages”, p161-p166, (AGNE Gijutsu Center, 2021/3/31)

C01 Planned Research Group

1. M. Sato, “Chirality, Magnetism and Magnetoelectricity” edited by E. Kamenetskii Floquet, Chapter 11 “Floquet Theory and Ultrafast Control of Magnetism“, p.265-p.286 (Springer, 2021/3/28)

A01 Planned Research Group

1. T. Kimura, “Research Category, Awards for Science and Technology, FYR6 The Commendation for Science and Technology by the Minister of Education, Culture, Sports, Science and Technology”, (Ministry of Education, Culture, Sports, Science and Technology, 2024/4/17)

B01 Publicly Offered Research Group

1. Kuroda, “The Young Scientists’ Award, FYR6 The Commendation for Science and Technology by the Minister of Education, Culture, Sports, Science and Technology”, (Ministry of Education, Culture, Sports, Science and Technology, 2024/4/17)

C01 Planned Research Group

1. Y. Motome, “Research Category, Awards for Science and Technology, FYR6 The Commendation for Science and Technology by the Minister of Education, Culture, Sports, Science and Technology”, (Ministry of Education, Culture, Sports, Science and Technology, 2024/4/17)

A01 Planned Research Group

1. Y. Okamoto, “Papers of Editors’ Choices”, (Journal of the Physical Society Japan, 2023/10/31)
2. Y. Shimakawa, ”CerSJ Awards for academic achievements in ceramic science and technology”, (CerSJ: The Ceramic Society of Japan, 2023/6/7)
3. Y. Shimakawa, “JSPM Award for Distinguished Achievements in Research”, （JSPM: Japan Society of Powder and Powder Metallurgy, 2023/6/6）

A01 Publicly Offered Research Group

1. M. Uchida, “The Oxide Electronics Prize for Excellence in Research”, (29th International Workshop on Oxide Electronics, 2023/10/17)
2. HIRSCHBERGER, Max, “Young Scientist Award of the Physical Society of Japan”, (Physical Society of Japan, 2023/10/15)
3. Y. Uchida, “2023年度日本液晶学会賞 論文賞A部門”,（Japanese Liquid Crystal Society, 2023/9/12）
4. D. Hirai, “第12回新化学技術研究奨励賞”,（Japan Association for Chemical Innovation (JACI), 2023/6/26）

B01 Planned Research Group

1. M. Naritsuka, “Young Researcher Award, International Conference on Quantum Liquid Crystals 2023 (QLC2023) ”, (International Conference on Quantum Liquid Crystals 2023 (QLC2023), 2023/8/10)

B01 Publicly Offered Research Group

1. S. Imajo, “NF Foundation R&D Encouragement Award”, (NF Foundation, 2023/12/1)
2. Imajo, “Young Scientist Award of the Physical Society of Japan（Division 7）”, (Physical Society of Japan, 2023/10/15)

C01 Planned Research Group

1. R. Arita, , “Highly Cited Researchers 2023”, (Clarivate Analytics社, 2023/11/16)
2. K. Kobayashi, “Best Poster Award, International Conference on Strongly Correlated Electron Systems 2023 (SCES 2023)”, (International Conference on Strongly Correlated Electron Systems 2023 (SCES 2023), 2023/7/6)

C01 Publicly Offered Research Group

1. S. Sugiura, “第34回（令和5年度）トーキン科学技術賞財団奨励賞”, (公益財団法人トーキン科学技術賞財団, 2024/3/4)
2. S. Hayami, “第18回（2023年）凝縮系科学賞”, (第18回（2023年）凝縮系科学賞, 2023/11/24)

D01 Planned Research Group

1. M. Tsukamoto, “Best Poster Award, International Symposium on Quantum Electronics”, (International Symposium on Quantum Electronics, 2024/2/16)
2. S. Kitou, 第17回物性科学領域横断研究会 (領域合同研究会)、若手奨励賞,（第17回物性科学領域横断研究会, 2023/11/25）
3. A. Mine, “Student Presentation Award of the Physical Society of Japan”,（Physical Society of Japan, 2023/10/14）
4. S. Nishimura, “Young Researcher Award, International Conference on Quantum Liquid Crystals 2023 (QLC2023) ”, (International Conference on Quantum Liquid Crystals 2023 (QLC2023), 2023/8/10)

A01 Planned Research Group

1. T. Hayashida, “2023年春季大会 日本物理学会学生優秀発表賞（領域 8）”, （The Physical Society of Japan, 2023/3）
2. S. Yamagishi, “2023年春季大会 日本物理学会学生優秀発表賞（領域 10）”, （The Physical Society of Japan, 2023/3）
3. Y. Shimakawa, ”FRSC： Fellow of Royal Society of Chemistry”, (The Royal Society of Chemistry, 2022/4/26)

A01 Publicly Offered Research Group

1. M. Uchida, “第4回（2022年度）強磁場フォーラムフロンティア奨励賞”, (強磁場フォーラム, 2022/11/25)
2. M. Uchida, “The 43rd Honda Memorial Young Researcher Award”, (The Honda Memorial Fundation, 2022/5/27)

B01 Planned Research Group

1. T. Shibauchi, “Outstanding Referee”, （American Physical Society, 2023/2/25）
2. H. Wadati, “令和4年度兵庫県立大学研究活動教員表彰、優秀研究活動賞”, (University of Hyogo, 2022/7/27)
3. T. Sato, “The Commendation for Science and Technology by the Minister of Education, Culture, Sports, Science and Technology (Research Category)”, (Ministry of Education, Culture, Sports, Science and Technology, 2022/4/8)

B01 Publicly Offered Research Group

1. H. Ishikawa, “Young Scientist Award of the Physical Society of Japan”,（The Physical Society of Japan, 2023/3/23）
2. S. Imajo, “第20回物性研究所 所長賞ISSP学術奨励賞”,（東京大学物性研究所, 2023/3/1）
3. S. Imajo, “第4回（2022 年度）強磁場フォーラムフロンティア奨励賞”, （強磁場フォーラム, 2022/11/25）
4. S. Yamane, “29th International Conference on Low Temperature Physics (LT29), Best Poster Award”,（29th International Conference on Low Temperature Physics (LT29), 2022/8/24）
5. S. Yamane, “卓越大学院　先端光・電子デバイス創成学, 2021 年度研究グラント成果報告会最優秀発表賞”,（京都大学卓越大学院プログラム、卓越大学院　先端光・電子デバイス創成学, 2022/4/7）

C01 Planned Research Group

1. T. Tohyama, “JPSJ Outstanding Referees”, （The Physical Society of Japan, 2023/3/24）
2. K. Shimizu, “第16回物性科学領域横断研究会 最優秀若手奨励賞”,（第16回物性科学領域横断研究会, 2022/11/26）
3. R. Arita, “Highly Cited Researchers 2022”,（Clarivate Analytics社, 2022/11/15）

C01 Publicly Offered Research Group

1. T. Kawasaki, “2023年度名古屋大学教養教育院全学教育担当教員顕彰”,（名古屋大学, 2023/3/30）
2. Y. Akagi, “Young Scientist Award of the Physical Society of Japan ”,（The Physical Society of Japan, 2023/3/23）

D01 Planned Research Group

1. S. Nishimura, “2023年春季大会 日本物理学会学生優秀発表賞（領域 6）”, （The Physical Society of Japan, 2023/3）
2. K. Yamamoto, “2nd International Symposium on Trans-Scale Quantum Science (TSQS2022)ポスター賞”,（2nd International Symposium on Trans-Scale Quantum Science (TSQS2022), 2022/11/11）
3. M. Tsukamoto, “日本物理学会 2022 年秋季大会学生優秀発表賞（領域 3）”,（日本物理学会, 2022/10）
4. NAJAFZADEH Sahand, “Student Presentation Award of the Physical Society of Japan, The Physical Society of Japan 2022 (77th) Annual Meeting (Division 6)”, (The Physical Society of Japan, 2022/4)

A01 Planned Research Group

1. Y. Shimakawa, “2021（R3）年度矢崎学術賞（功績賞）”,（Yazaki Memorial Foundation for Science and Technology, 2022/3/10）
2. T. Kimura, “The 2021 (the 67th) Nishina Memorial Prize”, (Nishina Memorial Foundation, 2021/11/9)
3. K. Kudo, “IOP trusted reviewer status”, (IOP Publishing, 2021/9/8)

C01 Planned Research Group

1. R. Arita, “Outstanding Referee“, (American Physical Society, 2022/2/28)
2. R. Arita, “Highly Cited Researchers 2021”, (Clarivate Analytics社, 2021/11/16)
3. K. Shimizu, “Student Presentation Award of the Physical Society of Japan, The Physical Society of Japan 2021 Autumn Meeting”, (The Physical Society of Japan, 2021/10)

D01 Planned Research Group

1. Y. Togawa, “文部科学省ナノテクノロジープラットフォーム 令和3年度「秀でた利用成果」優秀賞”, (文部科学省ナノテクノロジープラットフォーム, 2022/1/26)
2. K. Ishizaka, “the 18th (FY2021) JSPS Prize”, (Japan Society for the Promotion of Science, 2021/12/16)
3. K. Sasaki, “Inoue Research Award for Young Scientists”, (Inoue Foundation for Science, 2021/12/13)
4. Taka-hisa Arima, “The 2021 (the 67th) Nishina Memorial Prize”, (Nishina Memorial Foundation, 2021/11/9)
5. T. Suzuki, “The 16th Young Scientist Award of the Physical Society of Japan, The Physical Society of Japan 2021 Autumn Meeting”, (The Physical Society of Japan, 2021/10)

D01 Publicly offered Research Group

1. N. Kanazawa, “The Young Scientists’ Award, FYR3 The Commendation for Science and Technology by the Minister of Education, Culture, Sports, Science and Technology”, (Ministry of Education, Culture, Sports, Science and Technology, 2021/4/14)

A01 Planned Research Group

1. Naoyuki Katayama, Kazutaka Kudo, Seiichiro Onari, Tasuku Mizukami, Kento Sugawara, Yuki Sugiyama, Yutaka Kitahama, Keita Iba, Kazunori Fujimura, Naoki Nishimoto, Minoru Nohara, and Hiroshi Sawa, “Superconductivity in Ca1-xLaxFeAs2: A Novel 112-Type Iron Pnictide with Arsenic Zigzag Bonds”, J. Phys. Soc. Jpn. 82, 123702 (2013). “The 26th Outstanding Paper Award of the Physical Society of Japan”, (The Physical Society of Japan, 2021/3/14)
2. H. Eisaki, “JPSJ Outstanding Referees 2021”, (Journal of the Physical Society of Japan (JPSJ), 2021/3/1)
3. T. Hayashida, “学生優秀発表賞（領域10)”, (The Physical Society of Japan, 2020 Autumn Meeting, 2020/9)

A01 Publicly Offered Research Group

1. Y. Uchida, “Osaka University Prize”, (Osaka University, 2020/11/26)
2. Y. Uchida, “The Young Scientists’ Award, FYR2 The Commendation for Science and Technology by the Minister of Education, Culture, Sports, Science and Technology”, (Ministry of Education, Culture, Sports, Science and Technology, 2020/4/7)

B01 Planned Research Group

B01 Publicly Offered Research Group

1. S. Yonezawa, “IOP trusted reviewer status”, (IOP Publishing, 2020/9/23)

C01 Planned Research Group

1. T. Tohyama, “2020年度東京理科大学優秀研究者特別賞”, (Tokyo University of Science, 2021/3/31)
2. R. Arita, “Highly Cited Researchers 2020”, (Clarivate Analytics, 2020/11/18)

C01 Publicly Offered Research Group

1. H. Watanabe, “学生優秀発表賞（領域４）” , (The Physical Society of Japan, 2020 Autumn Meeting, 2020/9)
2. T. Kawasaki, “The Young Scientists’ Award, FYR2 The Commendation for Science and Technology by the Minister of Education, Culture, Sports, Science and Technology”, (Ministry of Education, Culture, Sports, Science and Technology, 2020/4/7)

D01 Planned Research Group

1. Taka-hisa Arima, “17th Honda Frontier Award”, (The Honda Memorial Fundation, 2020/11/6)
2. S. Iwakiri, “学生優秀発表賞（領域４）” , (The Physical Society of Japan, 2020 Autumn Meeting, 2020/9)

D01 Publicly offered Research Group

1. A. Kitaori, “若手奨励賞“, (第14回物性科学領域横断研究会, 2020/12/4)

A01 Planned Research Group

1. H. Higashi, “Vortex-Physics workshop Japan 2019 門脇特別賞”, (Vortex forum, 2019/12/17)
2. T. Kimura, “2019 Fellow of the American Physical Society”, (American Physical Society, 2019/09/18)

B01 Planned Research Group

1. H. Wadati, “IOP Publishing Outstanding Reviewer Award 2019 (Journal of Physics: Condensed Matter)”, (IOP Publishing, 2020/3/6)
2. T. Hanaguri, “RIKEN EIHO Award (RIKEN Significant Achievement Award)“, (RIKEN, 2020/03/12)
3. Y. Shimizu, ”BCSJ Award”, (Bulletin of the Chemical Society of Japan, 2019/02/14)
4. Y. Yokoyama, “36th Inoue Research Award for Young Scientists”,（Inoue Foundation for Science, 2020/2/4）
5. Y. Yokoyama, “第24回日本放射光学会奨励賞” , (Japanese Society for Synchrotron Radiation Research,2020/01/10)
6. O. Tanaka, “最優秀ポスター賞”, (第13回物性科学領域横断研究会, 2019/11/27)
7. K. Nawa, “第17回奨励賞”, (The Japanese Society for Neutron Science, 2019/11/20)

C01 Planned Research Group

1. H. Ikeda, “JPSJ Outstanding Referee”, (Journal of the Physical Society of Japan, 2020/03/17)
2. Y. Akagi and Y. Motome, “The 25th Outstanding Paper Award of the Physical Society of Japan”, (Physical Society of Japan, 2020/01/14)
3. R. Arita, “Highly Cited Researchers 2019”, (Web of Science 事業部, Clarivate Analytics, 2019/11/19)

D01 Planned Research Group

1. K. Kobayashi, “37th (FY2019) Osaka Science Prize”, (Osaka Prefecture, Osaka city and Osaka Science & Technology Center, 2019/11/13)
2. Y. Toda, “「⽇本シミュレーション学会 Outstanding Presentation Award」”, (Japan Society for Simulation Technology, 2019/11/5)

A01 Planned Research Group

1. T. Hayashida, T. Kimura, Lectures and seminars for the general public：”Electric field–induced magnetochiral dichroism in a ferroaxial crystal”, (QLC channel video, 2023/8/22)

A01 Publicly Offered Research Group

1. T. Sasaki, Experiments for elementary、junior high and high schools students
   : “出前授業「楽しい理科のはなし～不思議の箱を開けよう」”,（The Kahoku Shimpo, 2023/12/14）
2. T. Sasaki, Experiments for elementary、junior high and high schools students
   : “金属材料研究所一般公開”,（Institute for Materials Research, Tohoku University, 2023/10/7）
3. D. Hirai, Experiments for elementary、junior high and high schools students
   : “女子学生のための理系進学セミナー”, (日本物理学会名古屋支部, 2023/6/24)
4. T. Sasaki, Experiments for elementary、junior high and high schools students
   : “江戸川区子ども未来館連続講座「ガリレオは何を見つけたの」”,（江戸川区子ども未来館, 2023/4/1）

B01 Planned Research Group

1. K. Ishihara, T. Shibauchi, Lectures and seminars for the general public：“Chiral superconductivity in UTe2 probed by anisotropic low-energy excitations”, (QLC channel video, 2023/6/29)

B01 Publicly Offered Research Group

1. T. Asaba, Science Café：”第32回Sicence Café 量子熱帯魚の縞模様：ナノテクの新奇アプローチ”, (American Association for the Advancement of Science; AAAS, 2023/7/28)
2. S. Yonezawa, Experiments for elementary、junior high and high schools students
   : “京都府立南陽高校 サイエンスリサーチ科夏季実習”, （京都府立南陽高校, 2023/7/15, 2023/7/31, 2023/8/17）

C01 Planned Research Group

1. Y. Yamakawa, H. Kontani, Lectures and seminars for the general public：“Drastic magnetic-field-induced chiral current order and emergent current-bond-field interplay in kagome metals”, (QLC channel video, 2024/3/26)
2. K. Kobayashi, Y. Motome, Lectures and seminars for the general public：”Thermally-robust spatiotemporal parallel reservoir computing by frequency filtering in frustrated magnets”, (QLC channel video, 2023/10/19)

C01 Publicly Offered Research Group

1. T. Kawasaki, Experiments for elementary、junior high and high schools students： “名古屋大学模擬講義”, （愛知県立江南高校, 2023/11/13）

D01 Planned Research Group

1. K. Kobayashi, Experiments for elementary、junior high and high schools students：“令和5年度「東大の研究室をのぞいてみよう！～多様な学生を東大に～」”, (University of Tokyo, 2024/3/26)
2. K. Ishizaka, Experiments for elementary、junior high and high schools students：“高校生と大学生のための金曜特別講座、”光と電子の顕微鏡：速くて小さいモノをどうやってみるか？”, (東京大学大学院総合文化研究科・教養学部, 2024/2/2)
3. T. Arima, “日本物理学会2023年公開講座「量子ビームで見る、視る、診る」”, （The Physical Society of Japan, 2023/11/26）
4. K. Kobayashi, Experiments for elementary、junior high and high schools students：”研究室訪問受入れ”, (University of Tokyo, 2023/8/28)
5. K. Ishizaka, Experiments for elementary、junior high and high schools students：” 西大和学園の中学生向け研究紹介”, (西大和学園, 2023/5/30)
6. K. Ishizaka, Participation in and participation in events：”東京大学五月祭物理工学科研究室見学”, (東京大学工学部 物理工学科・計数工学科, 2023/5/30)
7. Y. Zhong, K. Okazaki, Lectures and seminars for the general public：”Nodeless electron pairing in CsV3Sb5-derived kagome superconductors”, （QLC channel video, 2023/5/10)

A01 Planned Research Group

1. K. Kudo, Lectures and seminars for the general public：“第12回 理学研究フォーラム／第11回 研究交流セミナー、「新しい超伝導体を創る」”, (Graduate School of Science, Osaka University, 2023/3/13)
2. Y. Shimakawa, Lectures and seminars for the general public：”IRCCS 研究シーズ提案セミナー”,（名古屋大学協力会, 2023/2/1）
3. K. Kudo, Experiments for elementary、junior high and high schools students：“”Saturday Afternoon Physics 最先端の物理を高校生に－宇宙から極微の世界まで－、「物質の世界への旅立ち－新しい超伝導体を創る－」”, (Osaka University online, 2022/10/22)
4. K. Ohgushi, Experiments for elementary、junior high and high schools students：”大学出張講義”,（宮城県泉館山高校, 2022/10/15）
5. Y. Shimakawa, Lectures and seminars for the general public：”令和4年度中性子産業利用報告会”,（中性子産業利用推進協議会, 2022/7/15）
6. Y. Shimakawa, Lectures and seminars for the general public：” 2022年度粉末冶金入門講座”,（粉末冶金協会, 2022/7/13）

A01 Publicly Offered Research Group

1. T. Sasaki, PR magazines ・ brochures：“日本全国！こんなところにスゴイ人 銅像スター調査隊！ – 本多光太郎-”,（東海テレビ放送, 20223/3/5）
2. T. Sasaki, Lectures and seminars for the general public：”みやぎ県民大学「超伝導の科学と技術」”, (宮城県・東北大学金属材料研究所, 2022/10/3)
3. T. Sasaki, Experiments for elementary、junior high and high schools students：“江戸川区子ども未来館物理ゼミ「ガリレオは何を見つけたの」”, (東京都江戸川区, 2022/10/2)

B01 Planned Research Group

1. J. Butler, T. Hanaguri, Lectures and seminars for the general public：”Correlation-driven electronic nematicity in the Dirac semimetal BaNiS2”, （QLC Channel Video, 2023/1/27)
2. Y. Shimizu, Experiments for elementary、junior high and high schools students：“あいちサイエンスフェスティバル 2022、サイエンストーク＆体験「巨大な量子をつくる」”, (あいちサイエンス・コミュニケーション・ネットワーク ,2022/10/10)
3. H. Watati, Lectures and seminars for the general public：東進TV 兵庫県立大学理学部の紹介動画【兵庫県立大学理学部】大学選びに迷う高校生にオススメ！世界初の技術で近畿 から世界を変える!!｜充実した研究施設・実験装置で医療に貢献する!! （理系編）“,（【公式】東進TV, 2022/5/24)
4. K. Yamamoto, H. Watadi, Lectures and seminars for the general public：”Photoinduced Transient States of Antiferromagnetic Orderings in La1/3Sr2/3FeO3 and SrFeO3 Thin Films Observed through Time-resolved Resonant Soft X-ray Scattering“,（QLC channel video, 2022/5/2)

B01 Publicly Offered Research Group

1. S. Imajo, Lectures and seminars for the general public：”Emergent anisotropy in the Fulde–Ferrell–Larkin–Ovchinnikov state”, (QLC channel video, 2022/11/8)
2. S. Yonezawa, Experiments for elementary、junior high and high schools students：“京都府立南陽高校 サイエンスリサーチ科夏季実習”, （京都府立南陽高校, 2022/8/8, 2022/7/29, 2022/7/16）

C01 Planned Research Group

1. K. Inui, Y. Motome, Lectures and seminars for the general public：”Inverse Hamiltonian design by automatic differentiation” （QLC channel video, 2023/3/27)

D01 Planned Research Group

1. K. Kobayashi, Experiments for elementary、junior high and high schools students：“令和4年度「東大の研究室をのぞいてみよう！～多様な学生を東大に～」”, （東京大学, 2023/3/28）
2. Y. Shimamoto, Y. Togawa, , Lectures and seminars for the general public：” Observation of Collective Resonance Modes in a Chiral Spin Soliton Lattice with Tunable Magnon Dispersion”,（QLC channel video, 2022/6/30)

A01 Planned Research Group

1. K. Kimura, T. Kimura, Lectures and seminars for the general public :”Visualizing rotation and reversal of the Néel vector through antiferromagnetic trichroism” （QLC channel video, 2022/2/5)
2. S. Ishida, H. Eisaki, Lectures and seminars for the general public : “Superconductivity-driven ferromagnetism and spin manipulation using vortices in the magnetic superconductor EuRbFe4As4”,（QLC channel video, 2021/11/11)
3. H. Fujihara, K. Ohgushi, Lectures and seminars for the general public：“Ohgushi Lab., Tohoku University”, (QLC channel video_from Lab., 2021/10/5)
4. K. Kudo, Experiments for elementary、junior high and high schools students：“大阪大学オープンキャンパス 理学部模擬講義、「新しい超伝導体を創る」”, （Osaka University, online, 2021/8/18）
5. Y. Shimakawa, Lectures and seminars for the general public : “Colossal Barocaloric Effect by Large Latent Heat Produced by First-Order Intersite-Charge-Transfer Transition“,(QLC channel video, 2021/4/7)

A01 Publicly Offered Research Group

1. T. Sasaki, Experiments for elementary、junior high and high schools students：仙台たなばた分団、2021年12月活動、活動名：電気が流れる有機材料、”講演題目「電気が流れるやわらかい有機材料の物質科学」”,（日本宇宙少年団たなばた分団, 2021/12/12）
2. T. Sasaki, Lectures and seminars for the general public：“令和3年 みやぎ県民大学「持続可能な未来社会を創る材料の科学と技術」、講演題目「超伝導の科学と技術」”,　(みやぎ県民大学, 2021/10/25)
3. Y. Uchida, Experiments for elementary、junior high and high schools students：学問発見講座、“分子の動きが目で見える「液晶」の仕組み”,（Osaka Ibaraki High School, 2021/7/10）

B01 Planned Research Group

1. Y. Zhang, H. Wadati, Lectures and seminars for the general public：”Photo-induced antiferromagnetic-ferromagnetic and spin-state transition”,（QLC Channel Video, 2022/3/15)
2. Y. Mizukami, T. Shibauchi, Lectures and seminars for the general public：” Thermodynamic evidence for field-angle dependent Majorana gap in a Kitaev spin liquid”, （QLC channel video, 2022/2/1)
3. Y. Shimizu, Lectures and seminars for the general public：“大学出前授業「量子ワンダーランドへようこそ」”, (豊橋市視聴覚教育センター, 2021/12/12)
4. Y. Shimizu, Experiments for elementary、junior high and high schools students：”名古屋大学出前講義(超伝導の磁気浮上等の模擬実験)”, (豊橋市科学館, 2021/12/12)
5. H. Murayama, S. Kasahara, Lectures and seminars for the general public：“Bond directional anapole order in a spin-orbit coupled Mott insulator Sr2(Ir1−xRhx)O4”, (QLC channel video, 2021/5/13)

B01 Publicly Offered Research Group

1. S. Yonezawa, Experiments for elementary、junior high and high schools students：”京都府立南陽高校 サイエンスリサーチ科夏季実習～高校生による実験結果のオンライン発表会～”, (京都府立南陽高校, 2021/8/27)
2. S. Yonezawa, Experiments for elementary、junior high and high schools students：”京都府立南陽高校 サイエンスリサーチ科夏季実習～高校生が自ら考えた磁性実験とその指導～”, (京都府立南陽高校, 2021/8/3)
3. S. Yonezawa, Experiments for elementary、junior high and high schools students：”京都府立南陽高校 サイエンスリサーチ科夏季実習～磁性に関するデモ実験と講義～”, (京都府立南陽高校, 2021/7/10)

C01 Planned Research Group

1. M.-T. Huebsch, R. Arita, “Benchmark for Ab Initio Prediction of Magnetic Structures Based on Cluster-Multipole Theory”, (QLC channel video, 2021/4/8)

C01 Publicly Offered Research Group

1. Y. Yanase, Lectures and seminars for the general public：“京都大学市民講座「物理と宇宙」、”新種の超伝導体が描く未来のストーリー””, (京都大学大学院理学研究科 物理学・宇宙物理学専攻、京都大学基礎物理学研究所, 2021/7/6)

D01 Planned Research Group

1. K. Kobayashi, Experiments for elementary、junior high and high schools students：” 令和３年度「東大の研究室をのぞいてみよう！～多様な学生を東大に～」”, (University of Tokyo, 2022/3/28)
2. Y. Toda, Lectures and seminars for the general public：“北海道大学　戸田研究室　ポンププローブ分光実験”, （QLC channel video_from Lab., 2022/3/3)
3. T. Suzuki, K. Okazaki, Lectures and seminars for the general public：“鉄系超伝導体の超高速な結晶構造変化を実現”, QLC Channel video, 2021/11/24)
4. Y. Toda, Experiments for elementary、junior high and high schools students：“サイエンスオリエンテーリング 2021 in 札幌”, (応用物理学会 北海道支部, 2021/10/23)
5. K. Kobayashi, Lectures and seminars for the general public：“からみあう電子たち－量子液体における三体相関の検出”, (QLC channel video, 2021/5/31)
6. Y. Shimamoto, Y. Togawa, Lectures and seminars for the general public：“Togawa Lab., Osaka Prefecture University”, (QLC channel video_from Lab., 2021/4/28)

A01 Planned Research Group

1. Y. Okamoto, Lectures and seminars for the general public : テクノ・フェア名大2020, (Nagoya University, 2020/10/17)
2. Y. Okamoto, Lectures and seminars for the general public : “Regular-triangle trimer and charge order preserving the Anderson condition in the pyrochlore structure of CsW2O6”, (QLC channel video, 2020/9/18)
3. T. Aoyama, K. Ohgushi, Lectures and seminars for the general public : “Polar state induced by block-type lattice distortions in BaFe2Se3 with quasi-one-dimensionalladder structure”, “Structural, electrical, magnetic, and optical properties of iron-based ladder compounds BaFe2(S1-xSex)3” , (QLC channel video, 2020/8/3)
4. K. Kimura, T. Kimura, Lectures and seminars for the general public : ”Imaging switchable magnetoelectric quadrupole domains via nonreciprocal linear dichroism“, (QLC channel video, 2020/7/10)

A01 Publicly Offered Research Group

1. T. Sasaki, PR magazines ・ brochures：”楽しい理科の話2020-理科って楽しいBOOK”, (河北新報社・東京エレクトロン, 2020/11/10)

B01 Planned Research Group

1. H. Wadati, Lectures and seminars for the general public：“Wadati Lab., University of Hyogo”, (QLC channel video_from Lab., 2021/3/10)
2. Y. Yasui, T. Hanaguri, Lectures and seminars for the general public : “Imaging the coupling between itinerant electrons and localised moments in the centrosymmetric skyrmion magnet GdRu2Si2i”, (QLC channel video, 2021/2/24)
3. K. Mukasa, T. Shibauchi, Lectures and seminars for the general public : “High-pressure phase diagrams of FeSe1-xTex: Correlation between suppressed nematicity and enhanced superconductivity”, (QLC channel video, 2021/1/31)
4. K. Yamamoto, H. Wadati, Lectures and seminars for the general public : “Ultrafast demagnetization of Pt magnetic moment in L10-FePt probed by magnetic circular dichroism at a hard x-ray free electron laser”, (QLC channel video, 2020/04/8)

B01 Publicly Offered Research Group

1. S. Yonezawa, PR magazines ・ brochures： ”京都大学大学院理学研究科・理学部 弘報 218号 研究紹介「超伝導の新種発見: ネマティックな超伝導」”, （Kyoto University, 2021/3/31）

C01 Planned Research Group

1. Shannon Nic, PR magazines ・ brochures：” APS TV Film”, (APS WebsEdgeEducation TV film,, 2021/3/15)
2. M. Sato, “Magnon Pairs and Spin-Nematic Correlation in the Spin Seebeck Effect”, (QLC channel video, 2020/05/22)

D01 Planned Research Group

1. K. Ishizaka, Participation in and participation in events：“International Symposium for High school students”（Glocal Academy, 2021/3/25）
2. K. Ishizaka, Lectures and seminars for the general public：：”理化学研究所　科学講演会”, （RIKEN, 2020/11/3）
3. K. Kobayashi, Experiments for elementary、junior high and high schools students：“進路講演会”, (St. Viator Rakusei senior high school (Kyoto City), 2020/10/31)
4. K. Okazaki, Participation in and participation in events：”Virtual ISSP（online Open House 2020）”, (ISSP, the University of Tokyo, 2020/10/24)
5. T. Sato, Taka-hisa Arima, Lectures and seminars for the general public : ” Magnetochiral Dichroism in a Collinear Antiferromagnet with No Magnetization”, (QLC channel video, 2020/6/26)

A01 Planned Research Group

1. K.Kudo, Experiments for elementary、junior high and high schools students : Okayama University Open Campus, (Okayama University, 2019/8/10-11)

B01 Planned Research Group

1. K. Ishida and T. Shibauchi, Lectures and seminars for the general public : “Novel electronic nematicity in heavily hole-doped iron pnictide superconductors”, (QLC channel video, 2020/03/25)
2. S. Kasahara, Experiments for elementary、junior high and high schools students：京都大学ELCAS物理学コースにて物理学実習のまとめとプレゼン指導,（Kyoto Univ.　ELCAS, 2020/1/11）
3. T. Shibauchi, PR magazines・brochures : “新学術領域「量子液晶の物性科学」発足にあたって”, (QLC News letter Vol.1, 2020/01/09)
4. H．Wadati, Experiments for elementary、junior high and high schools students : 第6回高校生のための科学講座「科学っておもしろい！」, （University of Hyogo, 2019/11/16）
5. T. Shibauchi, Experiment for elementary、junior high and high schools students, Open Campus 2019, (Kashiwa campus, The University of Tokyo, 2019/10/25-26)
6. T. Shibauchi, Lectures and seminars for the general public : 新学術「量子液晶」領域説明, (QLC channel video, 2019/09/10)
7. H. Hirori, Experiment for Japanese and British high school students, “iCeMS Science Festival 2019 Summer” (iCeMS, Kyoto Univ., 2019/8/1)

C01 Planned Research Group

1. R. Arita, “Quantum crystal structure in the 250-kelvin superconducting lanthanum hydride”, (QLC channel video, 2020/03/17)
2. Nic Shannon, Lectures and seminars for the general public：“Theory of Quantum Matter Unit at the Okinawa Institute of Science and Technology Graduate University”, (APS (Webs Edge Education) TV film, 2020/3/2)

D01 Planned Research Group

1. T. Suzuki, K. Okazaki, and S. Shin, PR magazines・brochures：物性研だより第59巻第4号 “鉄系超伝導で超伝導状態を「光で作る」ことに成功”, (東大物性研だより, 2020/03/16)
2. T. Suzuki, Lectures and seminars for the general public：“Photoinduced possible superconducting state with long-lived disproportionate band filling in FeSe”, (QLC channel video, 2020/03/10)
3. K. Kobayashi, Lectures and seminars for the general public：第37回（2019 年度）大阪科学賞表彰式・記念講演, (Osaka Science & Technology Center, 2019/11/13)
4. K. Ishizaka, Participation in and participation in events：plenary lecture, THE RISING STARS Women in Engineering Workshop, (Seoul National University etc., 2019/10/25）
5. K. Okazaki, Experiments for elementary、junior high and high schools students：Tsuchiura Daiichi High School visit to ISSP（ISSP, University of Tokyo,　2019/08/06）

A01 Planned Research Group

1. Y. Okamoto, “トポロジカル物質における表面超伝導を発見”, （EETimes Japan, 2023/11/10）
2. Y. Okamoto, “東大など、7種の磁性元素で超電導体　機序完全解明へ”, （NIKKEI Tech Foresight, 2023/9/14）
3. T. Kimura, “東大、フェロアキシャル結晶を用いて電場誘起磁気キラル二色性を実現”, （NIKKEI, 2023/8/21）

A01 Publicly Offered Research Group

1. D. Hirai, “新しいハイエントロピー型アンチモン化合物で超伝導を観測”（ EE Times Japan, 2023/8/28）

B01 Planned Research Group

1. T. Shibauchi, “次世代量子計算のカギとなる「マヨラナ粒子」を観測＝東大など”, (MITテクノロジーレビュー, 2024/3/21)
2. T. Shibauchi, “東大など、「マヨラナ粒子」の存在を決定づける証拠を発見したことを発表” (マイナビニュース, 2024/3/15)
3. T. Shibauchi, “東大など、ウランテルル化物のキラル超伝導状態を実験的に実証”, (マイナビニュース, 2023/6/6)
4. T. Shibauchi, “東大、鉄系超伝導体にて第4の超伝導状態「フェルミ面を持つ超伝導」を確認”, (マイナビニュース,2023/5/19)

B01 Publicly Offered Research Group

1. T. Asaba, “京大・東大・名大、カゴメ（籠目）状の格子をもつ金属においてループ電流状態が実現している熱力学的証拠を発見”, (Nikkei, 2024/1/4)
2. T. Asaba, “Single crystal atomic wires to order”, (Nano Today, 2023/7/15)
3. T. Asaba, “半導体で描くミクロの迷路”, (読売新聞, 2023/7/6)
4. T. Asaba, “幅1.4ナノメートルの量子ワイヤ”, (朝日新聞, 2023/5/23)

C01 Planned Research Group

1. H. Kontani, “カゴメ格子金属の特性予測　多重量子相を自由に制御”, (科学新聞, 2024/2/24)
2. Y. Motome, “東大、極低温で超大規模並列計算　磁性体電子使い新手法”, (日刊工業新聞, 2023/10/11)
3. Y. Motome, “東大、電子のスピンを用いた人工ニューラルネットワークの新しい動作原理を発見”, (Nikkei, 2023/10/10)

C01 Publicly Offered Research Group

1. T. Mizushima, “阪大、マヨラナ粒子の量子状態転送現象を解明　利活用に研究加速”, (The Nikkan Kogyo Shinbun、2023/12/8)
2. T. Mizushima, “阪大・東大・学習院大・JST、幻の素粒子「マヨラナ粒子」の量子テレポーテーション現象を解明”, (Nikkei, 2023/12/6)

D01 Planned Research Group

1. K. Kobayashi“東京大学など、多数の量子渦を可視化　超電導材開発に”, (NIKKEI Tech Foresight, 2023/10/5)
2. K. Kobayashi “東大、ダイヤモンド量子センサを用いて「量子渦」を広視野で可視化に成功”, (マイナビニュース, 2023/9/20)
3. K. Kobayashi, “東大ら，ダイヤモンド量子センサで量子渦を可視化”, (OPTRONICS ONLINE, 2023/9/19)
4. K. Kobayashi, 東京大学など、窒化ホウ素で量子センサー　磁場可視化”, (NIKKEI Tech Foresight, 2023/7/4)
5. K. Kobayashi, “量子制御に新手法、“ねじれ”効果で確率ほぼ100％＝東大など”, (MIT Technology Review Japan, 2023/6/22)
6. K. Kobayashi, “東大、hBN欠陥量子センサーをナノ配置　微小な局所磁場計測”, (日刊工業新聞, 2023/6/19)
7. K. Kobayashi, “東大ら，狙った場所に発光欠陥を生成し量子センサに”, (OPTRONICS ONLINE, 2023/6/14)
8. K. Kobayashi, “東大、量子センサをナノスケールのサイズで自在に並べる技術の開発に成功”, (日本経済新聞電子版, 2023/6/14)
9. K. Kobayashi, “Scientists successfully arranged nanoscale quantum sensors on desired targets”, (Tech Explorist, 2023/6/14)
10. K. Kobayashi, “東大，「ねじれ」で量子トンネル確率を自在に制御”, (OPTRONICS ONLINE, 2023/5/30)
11. K. Kobayashi, “東大、量子トンネル効果を平均95%以上の高確率で実現できることを証明”, (マイナビニュース, 2023/5/30)
12. K. Kobayashi, “東大、量子トンネル効果を100%に近い確率で誘起する幾何学的効果の実証に成功”, (日本経済新聞電子版, 2023/5/27)
13. K. Okazaki, “カゴメ格子を持つ超伝導体の電子の直接観測に初成功＝東大”, (ASCII.jp, 2023/5/12)
14. K. Okazaki, “カゴメ格子を持つ超伝導体の電子の直接観測に初成功＝東大”, (MITテクノロジーレビュー, 2023/5/12)
15. K. Okazaki, “【新技術】カゴメ格子構造を持つ『超伝導』電子を東京大学が観測成功！”, (ERESTAGE LAB, 2023/5/1)
16. K. Okazaki, “東大、カゴメ格子を持つ超伝導体の電子を直接観測”, (Nikkei, 2023/4/27)
17. K. Okazaki, “カゴメ格子を持つ超伝導体の電子を直接観測～特異な超伝導状態「カイラル超伝導」実現の可能性～”, (テック・アイ技術情報研究所, 2023/4/27)
18. K. Okazaki, “カゴメ格子を持つ超伝導体の電子を直接観測――特異な超伝導状態「カイラル超伝導」実現の可能性――”, (日本の研究.com, 2023/4/27)

D01 Publicly offered Research Group

1. Y. Onose, “東北大、らせん磁性でメモリー技術　室温動作実証”, (日刊工業新聞, 2024/3/13)
2. Y. Okamura, “東大、理研・阪大・学習院大・島根大とトポロジカル物質で高い操作性を持つ光周波数変換機能を実現”, (Nikkei, 2024/3/12)
3. Y. Okamura, “東大と理研、スキルミオンによるトポロジカル磁気光学効果の観測に成功”, （Nikkei, 2023/9/7）

A01 Planned Research Group

1. Y. Okamoto, “Group led by The Institute for Solid State Physics at The University of Tokyo discovers new material that significantly expands when a magnetic field is applied: Shows promise for new actuators”, （Science Japan, 2023/3/23）
2. Y. Okamoto, “磁場で膨らむセラミック”, （日経産業新聞, 2023/2/15）
3. Y. Okamoto, “磁場加えると大きく膨張　東大物性研など新材料発見”（科学新聞, 2023/2/10）

A01 Publicly Offered Research Group

1. T. Sasaki, “CROSSら，パイ電子ゆらぎと絡んだ分子格子振動観測”,（OPTRONICS ONLINE, 2023/1/5）
2. T. Sasaki, “有機物質における量子スピン液体の機構解明に光−パイ電子のゆらぎと絡み合った分子格子振動の特異な温度依存性を初めて観測−”, （日本経済新聞オンライン, 2022/12/28）
3. D. Hirai, “The Mechanism of the Metal-to-Insulator Transition in Ruthenium Phosphide”, （Lab Manager, 2022/11/30）
4. D. Hirai, “Unveiling the mechanism of the metal-to-insulator transition in ruthenium phosphide suggests a new way of looking at solids”, （EurekAlert AAAS, 2022/11/29）
5. D. Hirai, “名古屋大学などが無機固体の新結合発見、センサーやスイッチング素子への応用期待”, （2022/10/18, 日経XTECH）
6. D. Hirai, “名大、リン化ルテニウムが 0℃付近で金属から絶縁体に変化する理由を解明”,（TECH＋ powered by マイナビニュース, 2022/9/22）

B01 Planned Research Group

1. T. Shibauchi, “量子液晶ゆらぎ　非従来型超電導の要因　東大、実験的裏付け”,（日刊工業新聞, 2023/3/16）
2. H. Wadati, “兵庫県立大学など、ニッケル・コバルト酸化物薄膜をレーザー照射で光磁化スイッチング”,（日経XTECH, 2023/1/23）
3. H. Wadati, “（レーザー関連）兵庫県立大学他／酸化物磁性薄膜における光磁化スイッチングの実現 ‐希土類フリー酸化物で世界初の光スイッチングを観測！‐“, （Optinews, 2023/1/13）
4. H. Wadati, “兵県大ら，希土類フリー酸化物で光スイッチング観測”, （OPTRONICS ONLINE, 2023/1/12）
5. T. Shibauchi, “東大、鉄系超伝導体における量子液晶の量子臨界点を発見”, (TECH＋ powered by マイナビニュース, 2022/5/10)
6. T. Shibauchi, “東大、鉄系超伝導体における量子液晶の量子臨界点を発見”, (ニコニコニュース, 2022/5/10)
7. H. Wadati, “東大、ペロブスカイト型鉄酸化物薄膜の反強磁性磁気構造の高速な変化の観測に成功”, (TECH＋ powered by マイナビニュース, 2022/4/12)
8. H. Wadati, “東大ら，レーザーによる超高速磁気秩序変化を観測”, (OPTRONICS ONLINE, 2022/4/11)
9. H. Wadati, “（レーザー関連）東京大学他／レーザー光で引き起こされるの超高速な磁気秩序の変化を観測 – 反強磁性体のスピン制御に道！-”, （Optinews,2022/4/11）

B01 Publicly Offered Research Group

1. S. Imajo, “東大、特殊な超伝導状態「FFLO」の空間変調性の証拠を発見”,（2022/10/5, TECH＋ powered by マイナビニュース）
2. S. Imajo, “東大、特殊な超伝導状態「FFLO」の空間変調性の証拠を発見”,（2022/10/5, BIGLOBE ニュース）
3. S. Imajo, “東大、特殊な超伝導状態「FFLO」の空間変調性の証拠を発見”, （2022/10/5, Mapionニュース）
4. S. Imajo, “「磁気的な悪魔の階段」の手前に磁気的に隠れた状態が存在、東大が発見”, （2022/10/4, TECH＋ powered by マイナビニュース）
5. S. Imajo, “「磁気的な悪魔の階段」の手前に磁気的に隠れた状態が存在、東大が発見”, （2022/10/5, Mapion ニュース）
6. S. Imajo, “東大、強磁場中でも生き残る空間的に変調した超伝導を有機物中で発見“, （日本経済新聞, 2022/10/3）
7. Y. Ihara, “銅のカゴメ反強磁性体　渦巻き磁気構造形成”, （日刊工業新聞, 2022/7/14）

D01 Planned Research Group

1. T. Arima, “磁気構造が壊れても復活する、東大がスゴい物質発見”,（日刊工業新聞, 2023/3/20）
2. K. Kobayashi, “正確性50倍向上、東大が精密計測に成功したダイヤ量子センサーの実力”, （ニュースイッチ, 2022/9/6）
3. K. Kobayashi, “機械学習で正確性50倍　ダイヤ量子センサー　東大、磁場計測に提案”, （日刊工業新聞, 2022/9/5）
4. K. Kobayashi, “東大、ナノダイヤモンドと機械学習による高精度磁場イメージングを実現”, （マイナビニュース, 2022/9/5）
5. K. Kobayashi, “東大，ナノダイヤモンド磁場イメージングを正確化”,（OPTRONICS ONLINE, 2022/9/2）
6. K. Kobayashi, “東大、ナノダイヤモンド中の量子センサ特性を機械学習することで磁場の正確なイメージングを可能に”,（日本経済新聞電子版, 2022/9/1）
7. Y. Togawa, “次世代通信に活用期待のキラル磁気ソリトン格子－磁気超構造の集団共鳴運動観測に成功－”, （科学新聞, 2022/7/1
8. Y. Togawa, “大阪公立大、Beyond 5G/6Gの実現につながる高周波エレクトロニクス材料を確認”, (TECH＋ powered by マイナビニュース, 2022/6/22)
9. Y. Togawa, “サブテラヘルツ帯の無線通信を実現する「キラル磁気ソリトン格子」。Beyond 5Gの実現へ”, (PC Watch, 2022/6/22)
10. Y. Togawa, “Magnetic superstructures resonate with global 6G developers”, （EurekAlert!, 2022/6/21）
11. Y. Togawa, “Magnetic superstructures as a promising material for 6G technology“, （PHYSORG, 2022/6/20）

A01 Planned Research Group

1. T. Kimura, “東大、異なる3方向から見たときに光の透過具合が変化する反強磁性体を発見”, （TECH＋ powered by マイナビニュース, 2022/2/8）
2. Kimura, “東大、異なる3方向から見たときに光の透過具合が変化する反強磁性体を発見”, （マピオン, 2022/2/8）
3. T. Kimura, “方向二色性の強磁場下で反強磁性秩序変数を観測”, (科学新聞, 2022/1/28)
4. T. Kimura, “神戸大・阪大・東大、交流電場を用いた新規測定技術によりテラヘルツ電磁波の非相反線二色性の観測に成功”, (NIKKEI, 2021/12/24)
5. H. Eisaki, “産総研など　スピン配列を制御　超伝導・磁性共存下で”, (Japan Metal Bulletin, 2021/9/27)
6. H. Eisaki, “産総研ら、超伝導体でスピン配列の制御を実現、磁束量子の向きがスピンの向きを決める現象を発見”,（Yahoo News, 2021/9/9）
7. H. Eisaki, “超伝導体　スピン配列を制御　産総研　メモリー応用期待”, (Japan Chemical Daily, 2021/9/9)
8. H. Eisaki, “産総研ら、超伝導体でスピン配列の制御を実現”, (EE Times Japan, 2021/9/9)
9. H. Eisaki, “産総研ら，超伝導体でスピン配列の制御を実現“,（OPTRONICS ONLINE, 2021/9/7）
10. H. Eisaki, “超伝導体中の磁束量子の向きと配置の操作でスピン配列を制御することに成功“,（TECH＋ powered by マイナビニュース, 2021/9/7）
11. H. Eisaki, “超伝導体においてスピン配列の制御を実現－高速・低消費電力な超伝導メモリーなどへの応用に期待－”, (JPubb, 2021/9/7)
12. Y. Shimakawa, “ぷらっとラボ「磁気や圧力だけでひんやり」”, (The Asahi Shinbun（夕刊), 2021/7/12)
13. Y. Okamoto, “同じ電子数・結晶構造なのに全く異なる物性　超伝導体、絶縁体に分かれる　名古屋大が解明”,（The Science News, 2021/6/25）
14. Y. Shimakawa, “「酸化物新材料」京大・原子力機構など着目、「磁場と圧力」複数手法で冷却可能　大きな熱量効果・高効率な熱制御実現”, (The Science News, 2021/6/25)
15. Y. Shimakawa, “『磁場と圧力』複数手法で冷却可能 大きな熱量効果・高効率な熱制御実現”, (The Science News, 2021/6/25)
16. Y. Shimakawa, “京大など、磁場と圧力で熱制御の実証成功／冷却機器小型化も” , (The Denki Shiｍbun, 2021/6/24)
17. Y. Shimakawa, “熱制御　磁場・圧力で高効率、酸化物材　冷却機器を高性能化”, (Nikkan Kogyo Shimbun, 2021/6/22)
18. Y. Shimakawa, “磁力や圧力でひんやり新物質　京大など研究チームが発見”, ( The Asahi Shimbun DIGITAL, 2021/6/21)
19. Y. Okamoto, “名古屋大、磁場中で体積変化する反強磁性体を発見”,（Yahoo News, 2021/4/16）
20. Y. Shimakawa, “高効率冷却システム実現する新酸化物エネルギー材料発見”, (The Science News, 2021/4/16)
21. Y. Okamoto, “名古屋大、磁場中で体積変化する反強磁性体を発見”,（EE Times Japan, 2021/4/15）
22. Y. Okamoto, “名大、磁場を加えると従来にない機構で体積が大きく膨張する物質を発見” （TECH＋, 2021/4/12）

B01 Planned Research Group

1. H. Wadati, “兵県大ら，反強磁性薄膜をレーザーで強磁性に”, (OPTRONICS ONLINE, 2022/3/14)
2. H. Wadati, “（レーザー関連）兵庫県立大学他／酸化物薄膜における超高速な強磁性の実現 – 光による新しいスピン操作の可能性を示唆！-”, (Optinews, 2022/3/14)
3. T. Shibauchi, “東大など、キタエフ模型を実現する候補物質で「マヨラナ粒子」の観測に成功”, （TECH＋ powered by マイナビニュース、2022/2/2）
4. T. Shibauchi, “東工大ら，磁性絶縁体内のマヨラナ粒子の性質解明”, （OPTRONICS ONLINE, 2022/2/1）
5. T. Shibauchi, “東大と理研、従来のスピン一重項・三重項の枠組みを超えた超伝導クーパー対状態を発見”, （NIKKEI, 2021/12/10）
6. T. Shibauchi, “東大ら，枠組みを超えた超伝導クーパー対状態を発見” (OPTRONICS ONLINE, 2021/12/10)
7. H. Wadati, “東大など、鉄系超伝導体の超高速な結晶構造変化を実現”,（NIKKEI, 2021/9/10）
8. S. Kasahara, T. Shibauchi, “京大など、「非可換エニオン」性質解明　量子コンピューター実現へ”, (The Nikkan Kogyo Shimbun, 2021/8/5）
9. S. Kasahara, T. Shibauchi, “京大など、トポロジカル量子コンピュータの実現に重要な準粒子の性質を解明”, (TECH＋ powered by マイナビニュース, 2021/8/2)
10. S. Kasahara, T. Shibauchi, “トポロジカル量子コンピュータを実現する「非可換エニオン」粒子の性質が解明”, (PC Watch, 2021/7/30）

C01 Planned Research Group

1. R. Arita, “東大と理研、従来のスピン一重項・三重項の枠組みを超えた超伝導クーパー対状態を発見”, （NIKKEI, 2021/12/10）
2. R. Arita, “東大ら，枠組みを超えた超伝導クーパー対状態を発見” (OPTRONICS ONLINE, 2021/12/10)
3. Y. Motome, “磁気渦結晶に新パターン　東大、トポロジカルスピン結晶で発見”, (日刊工業新聞, 2021/12/2)
4. Y. Motome, “東大，トポロジカルスピン結晶の新規制御法を発見”, (OPTRONICS ONLINE, 2021/12/2)
5. M. Sato, “東北大ら，トリプロンのスピン流伝搬を実証”, (OPTRONICS ONLINE, 2021/9/1)
6. T. Tohyama, “反強磁性モット絶縁物質におけるフェムト秒の電子スピン配列振動を発見 ― 超高速磁性ダイナミクスの探査手法を提案 ―“, (Optinews, 2021/4/27)
7. T. Tohyama, “QSTら，極短パルス照射のモット絶縁体の変化発見“, (OPTRONICS ONLINE, 2021/4/26)

C01 Planned Research Group

1. T. Mizushima, “阪大・東北大など、量子コンピュータの基礎となるトポロジカル超伝導体固有のスピン伝導現象を解明”, (Nikkei, 2022/3/14)
2. Y. Akagi, “東大、電子が動くことのできない磁性絶縁体におけるマグノンの表面状態と新規輸送現象を理論的に解明“, (NIKKEI, 2021/10/21)

D01 Planned Research Group

1. Y. Togawa, “文部科学省ナノテクノロジープラットフォーム 令和3年度「秀でた利用成果」発表”,（The Science News, 2022/1/14）
2. K. Okazaki, “東大など、鉄系超伝導体の超高速な結晶構造変化を実現”, (日本経済新聞, 2021/9/10)
3. K. Kobayashi, “東大など、人工原子の量子液体を用いて電子の「三体相関」の検出に成功“, (TECH＋ powered by マイナビニュース, 2021/6/1)
4. K. Kobayashi, “東大と大阪市大、電子が量子力学的に絡み合う尺度となる三体相関を検出することに成功”（NIKKEI, 2021/5/28）

D01 Publicity Offered Research Group

1. N. Kanazawa, “新トポロジカル表面状態　鉄シリコン化合物で実現“, (The Science News, 2021/12/3)
2. N. Kanazawa, “理研、「創発インダクター」の室温動作に成功”, (EE Times Japan, 2021/8/23)
3. H. Ito, “東北大と岡山理科大、赤外光を照射した瞬間にナノ分極が増強することを発見”, (NIKKEI, 2021/8/19)
4. H. Ito, “東北大，光で電子型強誘電体のナノ分極を瞬時増強”, (OPTRONICS ONLINE, 2021/8/19)

A01 Planned Research Group

1. Y. Shimakawa, “冷却システム環境負荷低減　京大など酸化物材料発見”, (Nikkan Kogyo Shimbun, 2021/3/25)
2. K. Ohgushi, “阪大・東北大・東大　はしご構造を持つ鉄系超伝導体において電子の軌道が入れ替わる軌道スイッチング現象を発見”, （Nikkei, 2020/12/3）
3. T. Kimura, “東大・東北大・村田製作所、電場で誘起される旋光性を用いて結晶に内在する「時計回り・反時計回り」構造の空間分布を可視化”,（Nikkei, 2020/9/11）
4. Y. Okamoto, “固体物質における「正三角形の分子」をとらえた！ – パイロクロア構造に現れた新しいタイプの電子の自己組織化–“, （academist Journal, 2020/7/27）
5. T. Kimura, “東大、磁性体に内在するミクロな四重極磁石の空間分布を可視化”,（Nikkei, 2020/7/9）
6. Y. Okamoto, “名古屋大など　正三角形の分子形成　固体物質で初の発見”, (The Science News, 2020/7/3)

B01 Planned Research Group

1. S. Kasahara, T. Shibauchi, “京大と東大、イリジウム元素を含む酸化物で極のないナノ電磁石が形成されていることを発見”, (Nikkei, 2021/2/4)
2. T. Shibauchi, “東大と高エネ機構、新しい超電導状態を発見　量子液晶と密接に関係”, (Nikkan Kogyo Shimbun, 2021/1/19)
3. T. Shibauchi, “東大・高エネ研、量子液晶と関係した新しい超伝導状態を発見”, (Nikkei, 2021/1/15)
4. T. Hanaguri, “磁気渦構造　伝導電子に出現　理研と東大が発見“, (Nikkan Kogyo Shimbun, 2020/12/23)
5. T. Shibauchi, “阪大・東北大・東大　はしご構造を持つ鉄系超伝導体において電子の軌道が入れ替わる軌道スイッチング現象を発見”, （Nikkei, 2020/12/3）
6. T. Hanaguri, “理研と東大、ナノメートルサイズの磁気渦構造が伝導電子に現れることを発見”, (Nikkei, 2020/11/23)
7. T. Shibauchi, “電⼦集団向きそろう 東⼤・産総研、新しい量⼦液晶状態発⾒”, (The Nikkan Kogyo Shimbun, 2020/4/3)

B01 Publicly Offered Research Group

1. S. Hosoi, “阪大ら,鉄系超伝導体に電子軌道スイッチを発見”, (OPTRONICS online, 2020/12/4)
2. S. Hosoi, “阪大・東北大・東大　はしご構造を持つ鉄系超伝導体において電子の軌道が入れ替わる軌道スイッチング現象を発見”, （Nikkei, 2020/12/3）
3. S. Yonezawa, ”京大，ネマティック超伝導の配向パターンを制御”, (OPTRONICS ONLINE, 2020/8/26)
4. S. Yonezawa, “液晶のような超伝導の配向パターンの制御に成功 －ネマティック超伝導のドメインエンジニアリングへ－”, (OplusE, 2020/8/26)

C01 Planned Research Group

1. R. Arita, “東大・理研・東北大など、複雑な磁気構造を高精度で効率よく理論予測できる計算手法の開発に成功“, (Nikkei, 2021/2/18)
2. R. Arita, “新たな金属確認　メモリー材料用” (Hokkoku Shimbun, 2021/1/26)
3. R. Arita, Y. Motome,  “理研と東大、ナノメートルサイズの磁気渦構造が伝導電子に現れることを発見”, (Nikkei, 2020/11/23)
4. R. Arita, “室温・ゼロ磁場で磁気熱電効果20倍　東大など鉄系材料発見”, (Nikkan Kogyo Shimbun, 2020/7/10)
5. M.Sato, “東大と茨城大、レーザー中の散逸量子系を記述する一般公式を発見”,（日本経済新聞, 2020/7/4)
6. R. Arita, “東大・原子力機構・理研、「悪魔の階段」の複雑な相転移現象において伝導電子の特殊な振る舞いを解明”, (Nikkei, 2020/6/8)

C01 Publicly Offered Research Group

1. Y. Yanase, “京大と東大、イリジウム元素を含む酸化物で極のないナノ電磁石が形成されていることを発見”, (Nikkei, 2021/2/4)

D01 Planned Research Group

1. Y. Togawa, “磁気渦と反渦を観察－2次元磁性体の相転移現象に関与－”,（The Science News, 2021/1/8）
2. K. Okazaki, “ボース・アインシュタイン凝縮、超電導発現　東大・京大が確認”, (The Nikkan Kogyo Shimbun, 2020/12/3)
3. Taka-hisa Arima, “理研と東大、ナノメートルサイズの磁気渦構造が伝導電子に現れることを発見”, (Nikkei, 2020/11/23)
4. Taka-hisa Arima, “キラル二色性を示す磁化を持たない物質“, (The Science News, 2020/6/19）
5. K. Okazaki, “東大・原子力機構・理研、「悪魔の階段」の複雑な相転移現象において伝導電子の特殊な振る舞いを解明”, （Nikkei, 2020/6/8)
6. Taka-hisa Arima, “東大・高エネ研・理研、遷移元素を含む物質の「隠れた秩序」の観測に成功”,  (日本経済新聞, 2020/6/4)
7. K. Ishizaka, “東大・広島大・阪大、電荷密度波を形成するVTe2の電子構造の解明に成功”, (Nikkei, 2020/5/18)

D01 Publicly Offered Research Group

1. N. Kanazawa, “東大ら、固体中の電子の軌道を曲げる新機構を発見”, (OPTRONICS online, 2021/1/14)

A01 Planned Research Group

1. Y. Okamoto, “低温冷却素子に高性能材料　名古屋大”, (化学工業日報, 2019/07/30 )
2. Y. Okamoto, “名大、低温用の熱電素子材料を発見”, (Optronics online, 2019/07/29)

B01 Planned Research Group

1. T. Shibauchi, “鉄系超伝導体で新たな量子液晶状態を実現”, (EE Times Japan, 2020/03/11)
2. T. Shibauchi, “東大・産総研、”鉄系超電導で新機能発見。次世代通信に応用期待”, (鉄鋼新聞, 2020/03/10)
3. T. Shibauchi, “東大と産総研、鉄系超伝導体で電子の集団がどの方向にも揃う新しいタイプの量子液晶状態が実現できることを発見”, (日本経済新聞, 2020/03/10)
4. T. Shibauchi, “東大ら，鉄系超伝導体において量子液晶状態実現”, (Optronics online, 2020/03/10)
5. H. Wadati, “東大など、光照射によって試料の磁性が瞬間的に消失する現象を元素別に観測することに成功”, (日本経済新聞, 2019/11/22) 

C01 Planned Research Group

1. R. Arita, “ほぼ室温超伝導を示すランタン水素は量子固体”, (科学新聞, 2020/02/21)
2. R. Arita, “高圧下ランタン水素実は「量子固体」”, (電波新聞, 2020/02/14)

D01 Planned Research Group

1. K. Kobayashi, “大阪科学賞に阪大の栗栖氏ら”, (朝日新聞, 2019/10/02)
2. K. Kobayashi, “大阪科学賞：大阪科学賞に栗栖氏、小林氏”, (毎日新聞, 2019/09/27)
3. K. Kobayashi, “大阪科学賞に栗栖氏・小林氏”, (日経産業新聞, 2019/09/26)
4. K. Kobayashi, “大阪科学賞に阪大と東大教授”, (朝日新聞, 2019/09/26)
5. K. Kobayashi, “大阪科学賞に栗栖・小林両教授”, (読売新聞, 2019/09/26)

B01 Publicly Offered Research Group

1. Ishikawa, // S. Imajo, “MOFのハイパーオクタゴン格子でゆらぐスピン ―量子計算の舞台となる物質の開発を次の次元へ―”, （Institute for Solid State Physics, The University of Tokyo, 2024/4/12）
2. Yonezawa, “超伝導の世界でも、六角形と円は違うのだ ―「創発回転対称性」の破れを発見―”, （Kyoto University, 2024/4/12）

C01 Publicly Offered Research Group

1. S. Hayami, “多彩なスピン構造の間のトポロジカル数スイッチングに成功――超高密度な新しい情報担体としての活用に期待――”, (School of Science, Hokkaido University, 2024/4/2)

A01 Planned Research Group

1. T. Kimura, “光通信分野での新たな知見に 光の進行方向を反転することで吸収のしやすさが2倍以上変化する物質を発見”, (Osaka Metropolitan University, 2024/1/18)
2. H. Eisaki, “電子にはたらく特殊な力をマイクロメートルの高解像度で可視化｢量子マテリアル｣のデバイス評価に新展開”, （Hiroshima University, 2023/12/21）
3. Y. Okamoto, “トポロジカル物質における表面超伝導を発見 ～新しいタイプの非従来型超伝導物質～“, （Nagoya University, 2023/11/2）
4. Y. Okamoto, “さまざまな磁性元素を含む新しい超伝導体ファミリーの発見”, （Institute for Solid State Physics, The University of Tokyo, 2023/9/1）
5. T. Kimura, “Electric field–induced magnetochiral dichroism in a ferroaxial crystal”, （Graduate School of Engineering, The University of Tokyo, 2023/8/21）

A01 Publicly Offered Research Group

1. // HIRSCHBERGER Max, “Topological magneto-optical effect from skyrmion lattice”, （Graduate School of Engineering, The University of Tokyo, 2023/9/7）
2. D. Hirai, “新しいハイエントロピー化合物超伝導体の合成に成功 ～新規超伝導体発見への新しい道～”,（Nagoya University, 2023/8/23）

B01 Planned Research Group

1. T. Shibauchi, “欠陥によって誘起されるマヨラナ粒子の局在状態を観測――トポロジカル量子コンピューター実現の可能性を拓く――”, （Graduate School of Frontier Sciences, The University of Tokyo, 2024/3/14）
2. T. Shibauchi, “磁性絶縁体におけるマヨラナ粒子の決定的証拠 ――トポロジカル量子コンピューター実現に向けて前進――”, （Graduate School of Frontier Sciences, The University of Tokyo, 2024/3/14
3. T. Shibauchi, “非磁性カゴメ金属に隠された「磁性」―原子スケールでループを描く新奇電流状態―”, （Graduate School of Frontier Sciences, The University of Tokyo, 2024/1/5）
4. T. Shibauchi, “Chiral superconductivity in UTe2 probed by anisotropic low-energy excitations”, （Graduate School of Frontier Sciences, The University of Tokyo, 2023/6/1）
5. T. Shibauchi, “Two superconducting states with broken time-reversal symmetry in FeSe1-xSx”, （Graduate School of Frontier Sciences, The University of Tokyo, 2023/5/18）
6. T. Shibauchi, “1ナノメートル半導体量子細線の作製に成功―量子の熱帯魚パターンが拓く未来のナノテク―”, （Graduate School of Frontier Sciences, The University of Tokyo, 2023/5/4）

B01 Publicly Offered Research Group

1. S. Suetsugu, “磁性絶縁体におけるマヨラナ粒子の決定的証拠 ――トポロジカル量子コンピューター実現に向けて前進――”, （Kyoto University, 2024/3/14）
2. S. Suetsugu, T. Asaba, “スピン三重項超伝導体の電子対状態を解明―超流動ヘリウム3と似た前例のない超伝導状態―”, （Japan Atomic Energy Agency, 2024/2/8）
3. // K. Kuroda, “電子・スピンの運動を可視化する走査型顕微鏡の開発―マイクロメートル領域のスピン流を精密に測定―”, （Hiroshima University, 2024/1/12）
4. T. Asaba, S. Suetsugu, “非磁性カゴメ金属に隠された「磁性」―原子スケールでループを描く新奇電流状態―“, （Kyoto University, 2024/1/5）
5. T. Asaba, S. Suetsugu, “1ナノメートル半導体量子細線の作製に成功―量子の熱帯魚パターンが拓く未来のナノテク―”,（Kyoto University, 20235/8）

C01 Planned Research Group

1. H. Kontani, “カゴメ金属の新奇な多重量子相を予言・制御する理論を構築―ループ電流・電荷秩序・超伝導が奏でる“アンサンブル”―”, （Nagoya University, 2024/1/17）
2. H. Kontani, “非磁性カゴメ金属に隠された「磁性」―原子スケールでループを描く新奇電流状態―”, （Nagoya University, 2024/1/5）
3. H. Kontani, “カゴメ金属で起きる自発回転する不思議な電子状態 ～ナノスケールの永久ループ電流の機構を明らかに～”, （Nagoya University, 2023/12/15）
4. Y. Motome, “Thermally-robust spatiotemporal parallel reservoir computing by frequency filtering in frustrated magnets”, （Graduate School of Engineering, The University of Tokyo, 2023/10/11）
5. R. Arita, “超伝導の最適化:精密転移温度評価理論に基づく、新高温超伝導物質の予言”, （RIKEN, 2023/4/21）
6. R. Arita, “反強磁性体におけるトポロジカルホール効果の実証に成功 ―磁気情報の新しい読み出し手法としての活用に期待―”, （Graduate School of Engineering, The University of Tokyo, 2023/4/21）
7. // M. Sato, “テラヘルツ波とスピン振動の高効率な結合による巨大スピン応答の観測―超高速スピントロニクス応用への期待―”,（Chiba University, 2023/4/3）

C01 Publicly Offered Research Group

1. A. Daido, “量子幾何学によるスピンを持つ超伝導の予言―スピン三重項超伝導の探索に向けた指導原理―”, (Kyoto University, 2024/1/19)
2. // T. Mizushima, “幻の素粒子“マヨラナ粒子”の 量子テレポーテーション現象を解明　トポロジカル量子コンピュータの実現へ道”（Osaka University, 2023/12/6）

D01 Publicly Offered Research Group

1. T. Arima, “固体中で形が変わる金属分子を発見 ――キラルな秩序が引き起こす結晶が歪まない不思議な分子変形――”, （Graduate School of Frontier Sciences, The University of Tokyo, 2024/3/14）
2. K. Okazaki, “励起子絶縁体から半金属への変化に伴い出現する擬ギャップ状態を観測”, （Institute for Solid State Physics, The University of Tokyo, 2023/11/27）
3. K. Kobayashi, “UTokyo researchers successfully imaged quantum vortices in superconductors”, （Graduate School of Science, The University of Tokyo, 2023/9/16）
4. K. Kobayashi, “Researchers succeed in arranging nanoscale quantum sensors on desired targets”（Graduate School of Science, The University of Tokyo, 2023/6/14）
5. K. Kobayashi, “A new method for quantum control”,（Graduate School of Science, The University of Tokyo, 2023/5/27）
6. K. Okazaki, “カゴメ格子を持つ超伝導体の電子を直接観測 ―特異な超伝導状態「カイラル超伝導」実現の可能性―”, （Institute for Solid State Physics, The University of Tokyo, 2023/4/27）

D01 Publicly Offered Research Group

1. Y. Okamura, “Large nonlinear optical magnetoelectric response in a noncentrosymmetric magnetic Weyl semimetal”, （Graduate School of Engineering, The University of Tokyo, 2024/3/15）
2. Y. Onose, “Room temperature chirality switching and detection in a helimagnetic MnAu₂ thin film”, （Institute for Materials Research, Tohoku University, 2024/3/7）
3. Y. Okamura, “Topological magneto-optical effect from skyrmion lattice”, （Graduate School of Engineering, The University of Tokyo, 2023/9/7）

A01 Planned Research Group

1. Y. Okamoto, “磁場により体積が大きく膨張する新材料の発見 ―新たなアクチュエータ材料としての応用に期待―”, （Institute for Solid State Physics, The University of Tokyo, 2023/1/25）
2. // Y. Shimakawa, “サブミリメートルの長距離にも渡る水素の表面拡散を観測 -活性水素の利用に新しい道-“, （Institute for Chemical Research, Kyoto University, 2023/1/23）
3. Y. Shimakawa, “酸化物磁性薄膜における光磁化スイッチングの実現‐希土類フリー酸化物で世界初の光スイッチングを観測！” pdf,（Kyoto University, 2023/1/18）
4. // K. Ohgushi, “光による磁気スイッチの新たな原理を発見　超低消費電力・超高速光磁気メモリなどの実現に期待”, （Graduate School of Science, Tohoku University, 2022/8/24）
5. Y. Shimakawa, “無磁場下において超伝導ダイオード効果の制御に成功―超低消費電力の不揮発性メモリなどの実現に期待―”,（Kyoto University, 2022/7/1）
6. K. Kudo, “4倍に！超伝導状態への転移温度が上昇結晶構造の上下対称性の回復で達成―超伝導体探索の新たな指針へ―“, (Graduate School of Science, Osaka University, 2022/4/27)

A01 Publicly Offered Research Group

1. D. Hirai, “磁場により体積が大きく膨張する新材料の発見 ―新たなアクチュエータ材料としての応用に期待―”, （Nagoya University, 2023/1/25）
2. T. Sasaki, “Phonon Renormalization Effects Accompanying the 6 K Anomaly in the Quantum Spin Liquid Candidate κ-(BEDT-TTF)₂Cu₂(CN)₃”,（Institute for Materials Research, Tohoku University, 2022/12/28）
3. D. Hirai, “固体中で作られる新しいタイプの分子を発見 ～超伝導発現機構の解明に期待～”, (Nagoya University, 2022/9/21)

B01 Planned Research Group

1. H. Hirori, “テラヘルツ波とスピン振動の高効率な結合による巨大スピン応答の観測―超高速スピントロニクス応用への期待―”, (Institute for Chemical Research, Kyoto University, 2023/3/31)
2. T. Shibauchi, “Double dome structure of the Bose-Einstein condensation in diluted S = 3/2 quantum magnets”, (Graduate School of Frontier Sciences, The University of Tokyo, 2023/3/10)
3. T. Shibauchi, “Enhanced Superconducting Pairing Strength near a Pure Nematic Quantum Critical Point”, (Graduate School of Frontier Sciences, The University of Tokyo, 2023/3/9)
4. S. Kasahara, “超伝導の新しいメカニズム 「量子液晶揺らぎによる電子対形成」の検証に成功”, (Okayama University, 2023/3/9)
5. T. Shibauchi, “Bulk evidence of anisotropic s-wave pairing with no sign change in the kagome superconductor CsV3Sb5“, (Graduate School of Frontier Sciences, The University of Tokyo, 2023/2/14)
6. H. Wadati, “酸化物磁性薄膜における光磁化スイッチングの実現‐希土類フリー酸化物で世界初の光スイッチングを観測！” pdf,（University of Hyogo, 2023/1/12）
7. T. Hanaguri, “電子が質量を失って液晶になる物質を発見 －固体内で絡み合う電子が織りなす新物性に期待－”,（RIKEN, 2022/12/7）
8. T. Shibauchi, “量子液晶の量子臨界点が超伝導転移温度を上昇させることを解明”, (Graduate School of Frontier Sciences, The University of Tokyo, 2022/5/9)

B01 Publicly Offered Research Group

1. // S. Imajo, “超伝導の新しいメカニズム 「量子液晶揺らぎによる電子対形成」の検証に成功”, （Institute for Solid State Physics, The University of Tokyo, 2023/3/9）
2. S. Imajo, “強磁場中でも生き残る空間的に変調した超伝導を有機物中で発見”,（Institute for Solid State Physics, The University of Tokyo, 2022/10/3）
3. S. Yonezawa, “60年前に予言されていた液晶のような超伝導状態を酸化物で発見”,（Kyoto University, 2022/4/22）

C01 Planned Research Group

1. Y. Motome, “Inverse Hamiltonian design by automatic differentiation”,（Graduate School of Engineering, The University of Tokyo, 2023/3/2）
2. H. Kontani, “電子が質量を失って液晶になる物質を発見 －固体内で絡み合う電子が織りなす新物性に期待－”, （Nagoya University, 2022/12/9）
3. M. Sato, “２次元物質を⽤いたスピン流版太陽電池 −新しい光スピントロニクス機能の実現に向けて−”,（Chiba University, 2022/9/1）
4. T. Kontani, “カゴメ格子超伝導体CsV3Sb5に浮かび上がるダビデ星模様と超伝導の謎を解明 ～幾何学フラストレーションと量子干渉効果の競演～”, (Nagoya University, 2022/4/4)

D01 Planned Research Group

1. T. Arima, “Double dome structure of the Bose-Einstein condensation in diluted S = 3/2 quantum magnets”, (Graduate School of Frontier Sciences, The University of Tokyo, 2023/3/10)
2. K. Kobayashi, “ナノダイヤモンド磁場イメージング ― 量子計測×機械学習の新展開”, (Graduate School of Science, The University of Tokyo, 2022/9/1)
3. // K. Ishizaka, “2次元物質の電子構造の直接観測 ―原子層の数の偶奇で大きく変わる性質を発見―”,（School of Engineering, The University of Tokyo, 2022/6/29）
4. Y. Togawa, “Beyond 5Gの実現に新たな光　キラル磁気超構造が示す集団共鳴運動の観察に成功－サブテラヘルツ帯まで広帯域に変調可能な高周波エレクトロニクス材料－”, (Osaka Metropolitan University, 2022/6/21)

D01 Publicly Offered Research Group

1. Y. Onose, “Imaging an Acoustic Topological Edge Mode on a Patterned Substrate with Microwave Impedance Microscopy”, (Institute for Materials Research, Tohoku University, 2023/1/4)

A01 Planned Research Group

1. T. Kimura, “Visualizing rotation and reversal of the Néel vector through antiferromagnetic trichroism” (Graduate School of Frontier Sciences, The University of Tokyo, 2022/2/4)
2. Y. Shimakawa, “遷移金属酸化物の近藤効果を初めて実証 ～電子相関物性の設計・探索の新たなプラットホームを開拓～”, (Kyoto University, 2022/1/31)
3. T. Kimura, “Nonreciprocal linear dichroism observed in electron spin resonance spectra of the magnetoelectric multiferroic Pb(TiO)Cu4(PO4)4”, (Graduate School of Frontier Sciences, The University of Tokyo, 2021/12/24)
4. H. Eisaki, “超伝導体においてスピン配列の制御を実現－高速・低消費電力な超伝導メモリーなどへの応用に期待－”, （AIST, 2021/9/7）
5. Y. Shimakawa, “磁場と圧力でマルチに冷却可能な酸化物新材料 －フェリ磁性電荷転移酸化物におけるマルチ熱量効果の実証－”, (Kyoto University, 2021/6/22)
6. Y. Okamoto, 磁場により体積が大きく膨張する新機構の発見 ～アクチュエータ材料開発の新舞台として期待～, (Nagoya University, 2021/4/9)

B01 Planned Research Group

1. H. Wadati, “酸化物薄膜における超高速な強磁性の実現-光による新しいスピン操作の可能性を示唆！-” pdf , （University of Hyogo, 2022/3/7）
2. T. Shibauchi, “Thermodynamic evidence for field-angle dependent Majorana gap in a Kitaev spin liquid”, (Graduate School of Frontier Sciences, The University of Tokyo, 2022/2/1）
3. T. Shibauchi, “従来のスピン一重項・三重項の枠組みを超えた超伝導クーパー対状態の発見、その制御も可能に”, Graduate School of Frontier Sciences, The University of Tokyo, 2021/ 12/10“）
4. H. Wadati, “鉄系超伝導体の超高速な結晶構造変化を実現 -光による新しい超伝導操作の可能性を示唆！-”, （University of Hyogo, 2021/9/10）
5. S. Kasahara, “量子コンピューターのワイルドカードとなる粒子を解明”, （Okayama University, 2021/7/30）
6. T. Shibauchi, “Half-integer quantized anomalous thermal Hall effect in the Kitaev material candidate α-RuCl3”, （Graduate School of Frontier Sciences, The University of Tokyo, 2021/7/30)

B01 Publicly Offered Research Group

1. T. Mizushima, “量子コンピュータの基礎となるトポロジカル超伝導体固有のスピン伝導現象を解明 ―ヘリカルクーパー対に由来したスピン流生成―”, （大阪大学, 2022/3/14）

C01 Planned Research Group

1. H. Kontani, “自発的回転対称性の破れの発現機構の新発見 ～ツイスト２層グラフェンにおける複合自由度の重要性～”,（Nagoya University, 2022/2/15）
2. // Y. Motome, “Nonreciprocal linear dichroism observed in electron spin resonance spectra of the magnetoelectric multiferroic Pb(TiO)Cu４(PO４)４”, (Graduate School of Engineering,  The University of Tokyo, 2021/12/24)
3. R. Arita, “従来のスピン一重項・三重項の枠組みを超えた超伝導クーパー対状態の発見、その制御も可能に”, (RIKEN, 2021/12/10)
4. Y. Motome, “Phase shift in skyrmion crystals”, (Graduate School of Engineering,  The University of Tokyo, 2021/12/2)
5. M. Sato, “「トリプロン」がスピン流を伝搬することを実証―極小スピン回路などでの活用に期待”,（Ibaraki University, 2021/8/31）
6. T. Tohyama, “反強磁性モット絶縁物質におけるフェムト秒の電子スピン配列振動を発見 ― 超高速磁性ダイナミクスの探査手法を提案 ― ”,（Tokyo University of Science, 2021/4/26）

C01 Publicly Offered Research Group

1. T. Kawasaki, “トポロジカル材料を力で操る ～分子の形とねじれを制御する、独自の分子モデルで解明～”, (Nagoya University, 2022/3/30)
2. T. Mizushima, “量子コンピュータの基礎となるトポロジカル超伝導体固有のスピン伝導現象を解明 ―ヘリカルクーパー対に由来したスピン流生成―”, （Osaka University, 2022/3/14）
3. Y. Akagi, “電子が動くことのできない磁性絶縁体におけるマグノンの表面状態と新規輸送現象を理論的に解明”, （Graduate School of Science, The University of Tokyo, 2021/10/21）

D01 Planned Research Group

1. K. Okazaki, “鉄系超伝導体の超高速な結晶構造変化を実現 -光による新しい超伝導操作の可能性を示唆！-”,（Institute for Solid State Physics, The University of Tokyo, 2021/9/10）
2. // K. Ishizaka, “柔らかいスキルミオンの挙動を解明－10億分の1秒の精度でムービー計測－”, (RIKEN, 2021/6/17)
3. K. Kobayashi, “からみあう電子たち ― 量子液体における三体相関の検出”, (Graduate School of Science, The University of Tokyo / Institute for Physics of Intelligence, 2021/5/28)

D01 Publicly Offered Research Group

1. N. Kanazawa, “Emergence of spin-orbit coupled ferromagnetic surface state derived from Zak phase in a nonmagnetic insulator FeSi”, (Graduate School of Engineering,  The University of Tokyo, 2021/11/18）
2. N. Kanazawa, “創発インダクタの室温動作を実証～インダクタ素子の微細化に向けた飛躍～”,（RIKEN, 2021/8/19）
3. H. Itoh, “有機電子型強誘電体のナノ分極を瞬時に増強 ペタヘルツ応答への可能性を開拓”, (Graduate School of Science and Faculty of Science, Tohoku University, 2021/8/19)

A01 Planned Research Group

1. Y. Shimakawa, “環境に優しい高効率冷却システムを実現する新酸化物エネルギー材料の発見 －巨大圧力熱量効果による熱制御の実証－”, (Kyoto University, 2021/3/26)
2. T. Aoyama, K. Ohgushi, “鉄アレイ型から四つ葉のクローバー型へ ―鉄系超伝導体に現れた電子軌道スイッチング現象を発見―”, (Tohoku University, 2020/12/3)
3. T. Kimura, “Visualization of ferroaxial domains in an order-disorder type ferroaxial crystal”,  (Graduate School of Frontier Sciences, The University of Tokyo, 2020/9/11）
4. T. Kimura, “Imaging switchable magnetoelectric quadrupole domains via nonreciprocal linear dichroism”, (Graduate School of Frontier Sciences, The University of Tokyo, 2020/7/9）
5. Y. Okamoto, “固体物質における正三角形の分子の形成をとらえた！” , (Nagoya University, 2020/6/22）

B01 Planned Research Group

1. T. Shibauchi, “Strongly correlated superconductivity in a copper-based metal-organic framework with a perfect kagome lattice”, (Graduate School of Frontier Sciences, The University of Tokyo, 2021/3/18)
2. S. Kasahara, “物質中における極のないナノ電磁石の発見 －原子間ループ電流が引き起こす新しい電子状態を観測－ ”, (Kyoto University, 2021/2/5)
3. T. Shibauchi, “Bond directional anapole order in a spin-orbit coupled Mott insulator Sr2(Ir1−xRhx)O4”, (Graduate School of Frontier Sciences, The University of Tokyo, 2021/2/4)
4. T.Shibauchi, “High-pressure phase diagrams of FeSe1−xTex: correlation between suppressed nematicity and enhanced superconductivity “, (Graduate School of Frontier Sciences, The University of Tokyo, 2021/1/15)
5. T. Shibauchi, “鉄アレイ型から四つ葉のクローバー型へ ―鉄系超伝導体に現れた電子軌道スイッチング現象を発見―”, (Graduate School of Frontier Sciences, The University of Tokyo, 2020/12/3)
6. T. Hanaguri, “伝導電子に浮かび上がる磁気構造－ナノスケールの磁気渦構造をなす新機構への手がかり－”, (RIKEN, 2020/11/23)
7. // H. Hirori, “レーザー光による固体内電子運動の操作で光の発生制御に成功 －超高速な光制御・スイッチング素子や新しい光源の開発に期待－”,（Kyoto University, 2020/6/19）

B01 Publicly Offered Research Group

1. S. Hosoi, “鉄アレイ型から四つ葉のクローバー型へ ―鉄系超伝導体に現れた電子軌道スイッチング現象を発見―”, (Osaka University, 2020/12/3)
2. S. Yonezawa, “液晶のような超伝導の配向パターンの制御に成功 －ネマティック超伝導のドメインエンジニアリングへ－”, (Kyoto University, 2020/8/25)

C01 Planned Research Group

1. R. Arita, “Benchmark for Ab Initio Prediction of Magnetic Structures Based on Cluster-Multipole Theory”, (Graduate School of Engineering, The University of Tokyo, 2021/2/18)
2. // R. Arita, “反強磁性体で世界最大の自発磁気効果をもつ低消費電力磁気メモリ材料”, (RIKEN, 2021/1/26)
3. Arita, Y. Motome, “Imaging the coupling between itinerant electrons and localised moments in the centrosymmetric skyrmion magnet GdRu2Si2”, (Graduate School of Engineering, The University of Tokyo, 2020/11/24)
4. T. Tohyama, “反強磁性電子と共存する高温超伝導電子 -銅酸化物高温超伝導体に潜む30年来の未解決問題に終止符- ”,（東京理科大学, 2020/8/24）
5. M.Sato, “レーザー中の散逸量子系を記述する一般公式を発見～周期駆動系の非平衡統計力学の進展～”,（Ibaraki University, 2020/7/6)
6. R. Arita, “悪魔と取引した電子たち ～磁性体における40年来の謎を解明～”, (RIKEN, 2020/6/9)”
7. // R. Arita, “室温・ゼロ磁場で世界最高の磁気熱電効果を実現する鉄系材料”, (RIKEN, 2020/4/28)
8. // R. Arita, “ワイル粒子を用いた不揮発性メモリ素子の原理検証に成功－ビヨンド５Gに向けた超高速駆動・超高密度メモリ開発に道－”, (RIKEN, 2020/4/21)

C01 Publicly Offered Research Group

1. Y. Yanase, “物質中における極のないナノ電磁石の発見 －原子間ループ電流が引き起こす新しい電子状態を観測－”, (Kyoto University, 2021/2/5)

D01 Planned Research Group

1. Taka-Hisa Arima, “伝導電子に浮かび上がる磁気構造－ナノスケールの磁気渦構造をなす新機構への手がかり－”, (RIKEN, 2020/11/23)
2. K. Okazaki, “New kind of superconductivity discovered, Researchers demonstrate a superconductor previously thought impossible”, （The Institute for Solid State Physics (ISSP), The University of Tokyo, 2020/11/7）
3. K. Kobayashi, “原子層超伝導体に振動外場を加えて負の抵抗が実現！ー新しい超伝導デバイスへの道ー”, (Osaka University, University of Tokyo / Institute for Physics of Intelligence)
4. A. Nakamura, K. Ishizaka, “Laser pulses induce a different kind of sound wave －Ultrashort laser pulses induce unusual sound waves via a structural instability in a material－”, (RIKEN, 2020/7/31)
5. K. Okazaki, “悪魔と取引した電子たち ～磁性体における40年来の謎を解明～”, (The Institute for Solid State Physics (ISSP), The University of Tokyo, 2020/6/8)
6. Taka-hisa Arima, “遷移元素を含む物質の「隠れた秩序」の観測に成功 ―重い元素の示す奇妙な振る舞いの理解に向けて―”, (Graduate School of Frontier Sciences, The University of Tokyo, 2020/6/4)
7. Taka-hisa Arima, ,“Magnetochiral Dichroism in a Collinear Antiferromagnet with No Magnetization”, (Graduate School of Frontier Sciences, The University of Tokyo, 2020/5/28）
8. K. Ishizaka “Switching of band inversion and topological surface states by charge density wave“, (Graduate School of Engineering, The University of Tokyo, 2020/5/19)

D01 Publicly Offered Research Group

1. N. Kanazawa, “Giant anomalous Hall effect from spin-chirality scattering in a chiral magnet”, (Graduate School of Engineering,  The University of Tokyo, 2021/1/13)

A01 Planned Research Group

1. H. Eisaki, “鉄系超伝導体において新たな量子液晶状態”, (AIST, 2020/3/10）

B01 Planned Research Group

1. T. Shibauchi, “Novel electronic nematicity in heavily hole-doped iron pnictides superconductors”, (Graduate School of Frontier Sciences, The University of Tokyo, 2020/3/10）
2. H. Wadati, ”１兆分の１秒で起こる超高速な磁性の変化を元素別に解明 〜レーザー励起磁化反転の鍵〜”, (Institute for Solid State Physics, 2019/11/22)

C01 Planned Research Group

1. R. Arita, “Quantum crystal structure in the 250-kelvin superconducting lanthanum hydride”, (Faculty of Engineering, The University of Tokyo, 2020/2/7)
2. M. Sato, “スピントロニクスの方法を活用しスピン液晶状態の特徴を初めて解明”, (Ibaraki University, 2019/9/11)

D01 Planned Research Group

1. // K. Kobayashi, “磁気ゆらぎを利用した巨大磁気抵抗効果の観測に成功―単一結晶のみを用いた磁気デバイス応用への道―“, (Osaka University, 2020/2/26)
2. K. Okazaki, “日韓共同研究でグラフェン準結晶状態の高速変化を直接観測-次世代光デバイス制御に新たな自由度-“, (Institute for Solid State Physics, 2019/10/8)
3. K. Okazaki, “Light work for superconductors, Laser light compels iron compound to conduct power without resistance”,（Institute for Solid State Physics, 2019/9/27)