Below is the list of publications by members of Oshikawa Group, registered in ISSP Publication Database.
†Entanglement swapping in critical quantum spin chains: M. Hoshino, M. Oshikawa and Y. Ashida, Phys. Rev. B 111, 155143 (2025).
Self-congruent point in critical matrix product states: An effective field theory for finite-entanglement scaling: J. T. Schneider, A. Ueda, Y. Liu, A. Läuchli, M. Oshikawa and L. Tagliacozzo, SciPost Phys. 18, 142 (2025).
†Boundary conditions and anomalies of conformal field theories in 1+1 dimensions: L. Li, C.-T. Hsieh, Y. Yao and M. Oshikawa, Phys. Rev. B 110, 045118 (2024).
†Intrinsic symmetry-protected topological mixed state from modulated symmetries and hierarchical structure of boundary anomaly: Y. You and M. Oshikawa, Phys. Rev. B 110, 165160 (2024).
†Magnetization oscillations in a periodically driven transverse field Ising chain: X. Wang, M. Oshikawa, M. Kormos and J. Wu, Phys. Rev. B 110, 195101 (2024).
†Spontaneous strong symmetry breaking in open systems: Purification perspective: P. Sala, S. Gopalakrishnan, M. Oshikawa and Y. You, Phys. Rev. B 110, 155150 (2024).
†System-environment entanglement phase transitions: Y. Ashida, S. Furukawa and M. Oshikawa, Phys. Rev. B 110, 094404 (2024).
†Lieb-Schultz-Mattis Theorem for 1D Quantum Magnets with Antiunitary Translation and Inversion Symmetries: Y. Yao, L. Li, M. Oshikawa and C.-T. Hsieh, Phys. Rev. Lett. 133, 136705 (2024).
†*Quasi-Periodic Growth of One-Dimensional Copper Boride on Cu(110): Y. Tsujikawa, X. Zhang, K. Yamaguchi, M. Haze, T. Nakashima, A. Varadwaj, Y. Sato, M. Horio, Y. Hasegawa, F. Komori, M. Oshikawa, M. Kotsugi, Y. Ando, T. Kondo and I. Matsuda, Nano Lett. 24, 1160 (2024).
†Decorated defect construction of gapless-SPT states: L. Li, M. Oshikawa and Y. Zheng, SciPost Phys. 17, 013 (2024).
Finite-size corrections to the energy spectra of gapless one-dimensional systems in the presence of boundaries: Y. Liu, H. Shimizu, A. Ueda and M. Oshikawa, SciPost Phys. 17, 099 (2024).
Drude weights in one-dimensional systems with a single defect: K. Takasan, M. Oshikawa and H. Watanabe, Phys. Rev. B 107, 075141 (2023).
Duality, criticality, anomaly, and topology in quantum spin-1 chains: H. Yang, L. Li, K. Okunishi and H. Katsura, Phys. Rev. B 107, 125158 (2023).
Finite-size and finite bond dimension effects of tensor network renormalization: A. Ueda and M. Oshikawa, Phys. Rev. B 108, 024413(1-13) (2023).
†Many-body multipole index and bulk-boundary correspondence: Y. Tada and M. Oshikawa, Phys. Rev. B 108, 235150(1-12) (2023).
Noninvertible duality transformation between symmetry-protected topological and spontaneous symmetry breaking phases: L. Li, M. Oshikawa and Y. Zheng, Phys. Rev. B 108, 214429(1-19) (2023).
Subsystem non-invertible symmetry operators and defects: W. Cao, L. Li, M. Yamazaki and Y. Zheng, SciPost Phys. 15, 155 (2023).
Fermionization of fusion category symmetries in 1+1 dimensions: K. Inamura, JHEP 2023, 101(1-63) (2023).
Symmetry TFTs and anomalies of non-invertible symmetries: J. Kaidi, E. Nardoni, G. Zafrir and Y. Zheng, JHEP 2023, 53 (2023).
Symmetry TFTs for Non-invertible Defects: J. Kaidi, K. Ohmori and Y. Zheng, Commun. Math. Phys. 404, 1021 (2023).
Boson-fermion duality with subsystem symmetry: W. Cao, M. Yamazaki and Y. Zheng, Phys. Rev. B 106, 075150 (2022).
Duality viewpoint of criticality: L. Li and Y. Yao, Phys. Rev. B 106, 224420 (2022).
Absence versus Presence of Dissipative Quantum Phase Transition in Josephson Junctions: K. Masuki, H. Sudo, M. Oshikawa and Y. Ashida, Phys. Rev. Lett. 129, 087001 (2022).
Gappability Index for Quantum Many-Body Systems: Y. Yao, M. Oshikawa and A. Furusaki, Phys. Rev. Lett. 129, 017204 (2022).
Kramers-Wannier-like Duality Defects in (3+1)D Gauge Theories: J. Kaidi, K. Ohmori and Y. Zheng, Phys. Rev. Lett. 128, 111601 (2022).
Tensor network renormalization study on the crossover in classical Heisenberg and RP2 models in two dimensions: A. Ueda and M. Oshikawa, Phys. Rev. E 106, 014104 (2022).
Fracton topological order at finite temperature: X. Shen, Z. Wu, L. Li, Z. Qin and H. Yao, Phys. Rev. Research 4, L032008 (2022).
Non-invertible symmetries of N=4 SYM and twisted compactification.: J. Kaidi, G. Zafrir and Y. Zheng, J. High Energ. Phys. 2022, 53 (2022).
On lattice models of gapped phases with fusion category symmetries: K. Inamura, J. High Energ. Phys. 2022, 36 (2022).
Topology and Edge State Meet an Exact Solution for Nonlinear Electric Circuits: M. Oshikawa, JPSJ News Comments 19, 06 (2022).
Differentiable Programming of Isometric Tensor Networks: C. Geng, H.-Y. Hu and Y. Zou, Machine Learning: Science and Technology 3, 015020 (2022).
The mishandling of scientifically flawed articles about radiation exposure, retracted for ethical reasons, impedes understanding of the scientific issues pointed out by Letters to the Editor: Y. Tanimoto, Y. Hamaoka, K. Kageura, S. Kurokawa, J. Makino and M. Oshikawa, Journal of Scientific Practice and Integrity 2022, 38474 (2022).
Resolving the Berezinskii-Kosterlitz-Thouless transition in the two-dimensional XY model with tensor-network-based level spectroscopy: A. Ueda and M. Oshikawa, Phys. Rev. B 104, 165132 (2021).
†SU(4)-symmetric quantum spin-orbital liquids on various lattices: M. G. Yamada, M. Oshikawa and G. Jackeli, Phys. Rev. B 104, 224436 (2021).
†Two-wire junction of inequivalent Tomonaga-Luttinger liquids: Y.-T. Kang, C.-Y. Lo, M. Oshikawa, Y.-J. Kao and P. Chen, Phys. Rev. B 104, 235142 (2021).
†Non-Fermi Liquids in Conducting Two-Dimensional Networks: J. M. Lee, M. Oshikawa and G. Y. Cho, Phys. Rev. Lett. 126, 186601 (2021).
Twisted Boundary Condition and Lieb-Schultz-Mattis Ingappability for Discrete Symmetries: Y. Yao and M. Oshikawa, Phys. Rev. Lett. 126, 217201 (2021).
†Photon Echo from Lensing of Fractional Excitations in Tomonaga-Luttinger Spin Liquid: Z.-L. Li, M. Oshikawa and Y. Wan, Phys. Rev. X 11, 031035 (2021).
Chiral approximation to twisted bilayer graphene: Exact intravalley inversion symmetry, nodal structure, and implications for higher magic angles: J. Wang, Y. Zheng, A. J. Millis and J. Cano, Phys. Rev. Research 3,, 023155 (2021).
Topological field theories and symmetry protected topological phases with fusion category symmetries: K. Inamura, Journal of High Energy Physics 2021, 204 (2021).
†Parafermionization, bosonization, and critical parafermionic theories: Y. Yao and A. Furusaki, J. High Energ. Phys. 2021, 285 (2021).
Fermionization and boundary states in 1+1 dimensions: Y. Fukusumi, Y. Tachikawa and Y. Zheng, SciPost Phys. 11, 082 (2021).
†Remarks on compatibility between conformal symmetry and continuous higher-form symmetries: Y. Lee and Y. Zheng, Physical Review D 104, 085005 (1-7) (2021).
†Generalized f-sum rules and Kohn formulas on nonlinear conductivities: H. Watanabe and M. Oshikawa, Phys. Rev. B 102, 165137 (2020).
†*Particle-Hole Symmetry Breaking in a Spin-Dimer System TlCuCl3 Observed at 100 T: X. -G. Zhou, Y. Yao, Y. H. Matsuda, A. Ikeda, A. Matsuo, K. Kindo and H. Tanaka, Phys. Rev. Lett. 125, 267207 1-6 (2020).
†Stable Flatbands, Topology, and Superconductivity of Magic Honeycomb Networks: J. M. Lee, C. Geng, J. W. Park, M. Oshikawa, S.-S. Lee, H. W. Yeom and G. Y. Cho, Phys. Rev. Lett. 124, 137002 (2020).
47.
Searching for an emergent SU(4) symmetry in real materials: M. Yamada, Department of Physics, Graduate School of Science, The University of Tokyo (2020).
Generalized Boundary Condition Applied to Lieb-Schultz-Mattis-Type Ingappabilities and Many-Body Chern Numbers: Y. Yao and M. Oshikawa, Phys. Rev. X 10, 031008 (2020).
†Refined symmetry indicators for topological superconductors in all space groups: S. Ono, H. C. Po and H. Watanabe, Sci. Adv. 6, eaaz8367 (1-14) (2020).
†Filling-enforced constraint on the quantized Hall conductivity on a periodic lattice: Y.-M. Lu, Y. Ran and M. Oshikawa, Annals of Physics 413, 168060 (2020).
†On the General Properties of Non-linear Optical Conductivities: H. Watanabe, Y. Liu and M. Oshikawa, J Stat Phys 181, 2050 (2020).
†Proof of the Absence of Long-Range Temporal Orders in Gibbs States: H. Watanabe, M. Oshikawa and T. Koma, J Stat Phys 178, 926 (2020).
Non-local order parameters and quantum entanglement for fermionic topological field theories: K. Inamura, R. Kobayashi and S. Ryu, Journal of High Energy Physics 01, 121(1-30) (2020).
Cyclotron resonance in Kondo insulator: Y. Tada, Physical Review Research 2, 023194 (2020).
Quantum criticality of magnetic catalysis in two-dimensional correlated Dirac fermions: Y. Tada, Physical Review Research 2, 033363 (2020).
Quantum valence bond ice theory for proton-driven quantum spin-dipole liquids: M. G. Yamada and Y. Tada, Physical Review Research 2, 043077 (2020).
†Higher anomalies, higher symmetries, and cobordisms II: Lorentz symmetry extension and enriched bosonic / fermionic quantum gauge theory: Z. Wan, J. Wang and Y. Zheng, Annals of Mathematical Sciences and Applications 5, 171 (2020).
Bosonization with a background U(1) gauge field: Y. Yao and Y. Fukusumi, Phys. Rev. B 100, 075105 (2019).
†Crossover of correlation functions near a quantum impurity in a Tomonaga-Luttinger liquid: C.-Y. Lo, Y. Fukusumi, M. Oshikawa, Y.-J. Kao and P. Chen, Phys. Rev. B 99, 121103 (2019).
†Difficulties in operator-based formulation of the bulk quadrupole moment: S. Ono, L. Trifunovic and H. Watanabe, Phys. Rev. B 100, 245133 (2019).
†Extraction of topological information in Tomonaga-Luttinger liquids: M. Nakamura and S. C. Furuya, Phys. Rev. B 99, 075128 (2019).
†Geometric orbital magnetization in adiabatic processes: L. Trifunovic, S. Ono and H. Watanabe, Phys. Rev. B 100, 054408 (2019).
†Lieb-Schultz-Mattis type theorem with higher-form symmetry and the quantum dimer models: R. Kobayashi, K. Shiozaki, Y. Kikuchi and S. Ryu, Phys. Rev. B 99, 014402 (2019).
Polarization amplitude near quantum critical points: S. C. Furuya and M. Nakamura, Phys. Rev. B 99, 144426 (2019).
†Anomaly Matching and Symmetry-Protected Critical Phases in SU(N) Spin Systems in 1+1 Dimensions: Y. Yao, C.-T. Hsieh and M. Oshikawa, Phys. Rev. Lett. 123, 180201 (2019).
†Anomaly of the Electromagnetic Duality of Maxwell Theory: C.-T. Hsieh, Y. Tachikawa and K. Yonekura, Phys. Rev. Lett. 123, 161601 (2019).
67.
カイラル超流動体の軌道角運動量は何によって決まるか?: 多田 靖啓, 日本物理学会誌 第74巻、第2号, 93 (2019).
Quantum phase transition and criticality in quasi-one-dimensional spinless Dirac fermions: Y. Tada, Physical Review B 100, 125145 (2019).
†Symmetry indicators for topological superconductors: S. Ono, Y. Yanase and H. Watanabe, Phys. Rev. Research 1, 013012 (2019).
Accessing electromagnetic properties of matter with cylindrical vector beams: H. Fujita, Y. Tada and M. Sato, New Journal of Physics 21, 073010 (2019).
†On gapped boundaries for SPT phases beyond group cohomology: R. Kobayashi, K. Ohmori and Y. Tachikawa, J. High Energ. Phys. 2019, 131 (2019).
Pin TQFT and Grassmann integral: R. Kobayashi, J. High Energ. Phys. 2019, 14 (2019).
Construction of Hamiltonians by supervised learning of energy and entanglement spectra: H. Fujita, Y. O. Nakagawa, S. Sugiura and M. Oshikawa, Phys. Rev. B 97, 075114 (1-12) (2018).
†Particle statistics, frustration, and ground-state energy: W. Nie, H. Katsura and M. Oshikawa, Phys. Rev. B 97, 125153 (1-17) (2018).
Scaling of the polarization amplitude in quantum many-body systems in one dimension: R. Kobayashi, Y. O. Nakagawa, Y. Fukusumi and M. Oshikawa, Phys. Rev. B 97, 165133 (1-14) (2018).
†Unified understanding of symmetry indicators for all internal symmetry classes: S. Ono and H. Watanabe, Phys. Rev. B 98, 115150 (2018).
†Emergent SU(4) Symmetry in α-ZrCl3 and Crystalline Spin-Orbital Liquids: M. G. Yamada, M. Oshikawa and G. Jackeli, Phys. Rev. Lett. 121, 097201 (1-6) (2018).
78.
光渦レーザーによる磁性制御の展望: 藤田 浩之, 佐藤 正寛, 固体物理 53, 10, 1-15 (2018).
79.
Theoretical study on volume law of Rényi entanglement entropy in quantum many-body systems: Y. Nakagawa, The University of Tokyo (2018).
80.
光渦レーザーによる超高速ナノスピン構造制御: 佐藤 正寛, 藤田 浩之, 光学 47, 4, p162- (2018).
81.
量子情報と統計力学 (特集 量子情報と物理学のフロンティア): 押川 正毅, 数理科学 56(6), 23-29 (2018).
†Inequivalent Berry Phases for the Bulk Polarization: H. Watanabe and M. Oshikawa, Phys. Rev. X 8, 021065 (1-15) (2018).
Fulde-Ferrell state in a ferromagnetic chiral superconductor with magnetic domain walls: Y. Tada, Physical Review B 97, 014519 (2018).
Nonthermodynamic nature of the orbital angular momentum in neutral fermionic superfluids: Y. Tada, Physical Review B 97, 214523 (2018).
「量子スピン液体」の神秘性 – 宇宙と物質のあいだにある不思議な対応関係とは: 山田 昌彦, academist Journal, 6995 (2018).
Decay of superconducting correlations for gauged electrons in dimensions D <= 4: Y. Tada and T. Koma, Journal of Mathematical Physics 59, 031905 (2018).
†Capacity of entanglement and the distribution of density matrix eigenvalues in gapless systems: Y. O. Nakagawa and S. Furukawa, Phys. Rev. B 96, 205108 (1-8) (2017).
†Crystalline Kitaev spin liquids: M. G. Yamada, V. Dwivedi and M. Hermanns, Phys. Rev. B 96, 155107 (1-15) (2017).
†Encoding orbital angular momentum of light in magnets: H. Fujita and M. Sato, Phys. Rev. B 96, 060407(R) (1-6) (2017).
†Finite-size scaling of the Shannon-Rényi entropy in two-dimensional systems with spontaneously broken continuous symmetry: G. Misguich, V. Pasquier and M. Oshikawa, Phys. Rev. B 95, 195161 (1-13) (2017).
Theory of electron spin resonance in one-dimensional topological insulators with spin-orbit couplings: Detection of edge states: Y. Yao, M. Sato, T. Nakamura, N. Furukawa and M. Oshikawa, Phys. Rev. B 96, 205424 (1-10) (2017).
†Ultrafast generation of skyrmionic defects with vortex beams: Printing laser profiles on magnets: H. Fujita and M. Sato, Phys. Rev. B 95, 054421 (1-12) (2017).
Designing Kitaev Spin Liquids in Metal-Organic Frameworks: M. G. Yamada, H. Fujita and M. Oshikawa, Phys. Rev. Lett. 119, 057202 (1-6) (2017).
†Symmetry Protection of Critical Phases and a Global Anomaly in 1+1 Dimensions: S. C. Furuya and M. Oshikawa, Phys. Rev. Lett. 118, 021601 (1-5) (2017).
95.
Designing various quantum spin liquids in metal-organic frameworks: M. G. Yamada, Department of Physics, University of Tokyo (2017).
96.
「マグノンペアによる熱ホール効果についての理論研究」 高田 えみか, 東京大学大学院理学系研究科物理学専攻 (2017).
†Numerical calculations on the relative entanglement entropy in critical spin chains: Y. O. Nakagawa and T. Ugajin, J. Stat. Mech. 2017, 093104 (1-16) (2017).
Signatures of Dirac Cones in a DMRG Study of the Kagome Heisenberg Model: Y.-C. He, M. P. Zaletel, M. Oshikawa and F. Pollmann, Phys. Rev. X 7, 031020 (1-16) (2017).
†First-principles design of a half-filled flat band of the kagome lattice in two-dimensional metal-organic frameworks: M. G. Yamada, T. Soejima, N. Tsuji, D. Hirai, M. Dinca and H. Aoki, Phys. Rev. B 94, 081102(R) (2016).
†Flux quench in a system of interacting spinless fermions in one dimension: Y. O. Nakagawa, G. Misguich and M. Oshikawa, Phys. Rev. B 93, 174310 (2016).
†Magnetism and superconductivity in ferromagnetic heavy-fermion system UCoGe under in-plane magnetic fields: Y. Tada, S. Takayoshi and S. Fujimoto, Phys. Rev. B 93, 174512 (1-7) (2016).
†Plaquette order in the SU(6) Heisenberg model on the honeycomb lattice: P. Nataf, M. Lajkó, P. Corboz, A. M. Läuchli, K. Penc and F. Mila, Phys. Rev. B 93, 201113(R) (1-6) (2016).
103.
「2次元スピン模型の共形場理論およびシュラム・レヴナー発展による解析」 福住 吉喜, 東京大学大学院理学系研究科物理学専攻 (2016).
104.
Chiral Magnetic Effect in Condensed Matter Systems: H. Fujita, Department of Physics, University of Tokyo (2016).
105.
†遠方見聞録: 山田 昌彦, 「東京大学理学系研究科・理学部ニュース 2016年9月号」, 理学系研究科広報委員会所属 広報誌編集委員会, (東京大学大学院理学系研究科・理学部, 2016), 7-7.
Fractional quantum Hall states of dipolar fermions in a strained optical lattice: H. Fujita, Y. O. Nakagawa, Y. Ashida and S. Furukawa, Phys. Rev. A 94, 043641 (2016).
量子異常と物性物理 (特集 物理科学,この1年) - (素粒子物理): 押川 正毅, パリティ 31, 43-45 (2016).
108.
物性物理と場の量子論 〜場の量子論が明かす双対性〜: 押川 正毅, 数理科学 633, 41-46 (2016).
Spin gravitational resonance and graviton detection: J. Q. Quach, Phys. Rev. D 93, 104048 (1-6) (2016).
Field‐free, spin‐current control of magnetization in non‐collinear chiral antiferromagnets: H. Fujita, Phys. Status Solidi RRL 11, 1600360 (2016).
†Magnetism in f-electron superlattices: R. Peters, Y. Tada and N. Kawakami, Physical Review B 94, 205142(1-6) (2016).
†Two No-Go Theorems on Superconductivity: Y. Tada and T. Koma, Journal of Statistical Physics 165, 455-470 (2016).
Equilibrium surface current and role of U(1) symmetry: Sum rule and surface perturbations: Y. Tada, Phys. Rev. B 92, 104502 (1-15) (2015).
†Selection of factorizable ground state in a frustrated spin tube: Order by disorder and hidden ferromagnetism: X. Plat, Y. Fuji, S. Capponi and P. Pujol, Phys. Rev. B 91, 064411 (1-21) (2015).
†Spin fluctuations and superconductivity in layered f-electron superlattices: Y. Tada and R. Peters, Phys. Rev. B 92, 035129 (1-8) (2015).
†Absence of Quantum Time Crystals: H. Watanabe and M. Oshikawa, Phys. Rev. Lett. 114, 251603 (1-5) (2015).
†Distinct Trivial Phases Protected by a Point-Group Symmetry in Quantum Spin Chains: Y. Fuji, F. Pollmann and M. Oshikawa, Phys. Rev. Lett. 114, 177204 (1-5) (2015).
Gravitational Casimir Effect: J. Q. Quach, Phys. Rev. Lett. 114, 081104 (1-5) (2015).
†Orbital Angular Momentum and Spectral Flow in Two-Dimensional Chiral Superfluids: Y. Tada, W. Nie and M. Oshikawa, Phys. Rev. Lett. 114, 195301 (1-5) (2015).
120.
†ウラン系強磁性超伝導における強磁性ゆらぎが誘起するスピン三重項超伝導: 石田 憲二, 服部 泰佑, 佐藤 憲昭, 出口 和彦, 多田 靖啓, 藤本 聡, 固体物理 50, 123-132 (2015).
121.
Flux quench in the S=1/2 XXZ chain: Y. Nakagawa, Department of Physics, Graduate School of Science, University of Tokyo (2015).
122.
Replica manipulation of the ground state in one-dimensional quantum spin systems: Y. Kumano, Department of Physics, Graduate School of Science, University of Tokyo (2015).
123.
Symmetries and quantum phases in one-dimensional spin systems: Y. Fuji, Department of Physics, Graduate School of Science, University of Tokyo (2015).
124.
「物性物理学」〜物質に潜む普遍的概念〜: 押川 正毅, 数理科学 620, 40-45 (2015).
Foldy-Wouthuysen transformation of the generalised Dirac Hamiltonian in a gravitational-wave background: J. Q. Quach, Phys. Rev. D 92, 084047 (2015).
†Quantum criticality in an asymmetric three-leg spin tube: A strong rung-coupling perspective: Y. Fuji, S. Nishimoto, H. Nakada and M. Oshikawa, Phys. Rev. B 89, 054425 (1-13) (2014).
†Valence bond distribution and correlation in bipartite Heisenberg antiferromagnets: D. Schwandt, F. Alet and M. Oshikawa, Phys. Rev. B 89, 104416 (1-14) (2014).
128.
Effect of Particle Statistics and Frustration on Ground-State Energy: W. Nie, Department of Physics, Graduate School of Science, University of Tokyo (2014).
129.
「J1-J3-J4モデルの量子相転移のユニバーサリティークラス」 毛利宗 一朗, 東京大学大学院理学系研究科物理学専攻 (2014).
130.
「双二次相互作用をもつパイロクロア反強磁性体における強磁場下量子状態の理論的研究」 高田 えみか, 東京大学大学院理学系研究科物理学専攻 (2014).
Beats and expansion of two-component Bose–Einstein condensates in the Thomas–Fermi limit: J. Q. Quach, J. Phys. B: At. Mol. Opt. Phys. 47, 215007 (2014).
†Dimensional crossover in layered f-electron superlattices: Y. Tada, R. Peters and M. Oshikawa, Phys. Rev. B 88, 235121 (1-7) (2013).
†Electron spin resonance shifts in S=1 antiferromagnetic chains: S. C. Furuya, Y. Maeda and M. Oshikawa, Phys. Rev. B 87, 125122 (1-10) (2013).
†Entanglement spectra between coupled Tomonaga-Luttinger liquids: Applications to ladder systems and topological phases: R. Lundgren, Y. Fuji, S. Furukawa and M. Oshikawa, Phys. Rev. B 88, 245137 (1-14) (2013).
†Hole statistics and superfluid phases in quantum dimer models: C. A. Lamas, A. Ralko, M. Oshikawa, D. Poilblanc and P. Pujol, Phys. Rev. B 87, 104512(1-20) (2013).
†Kondo effect in f-electron superlattices: R. Peters, Y. Tada and N. Kawakami, Phys. Rev. B 88, 155134 (1-8) (2013).
†Response to a twist in systems with Zp symmetry: The two-dimensional p-state clock model: Y. Kumano, K. Hukushima, Y. Tomita and M. Oshikawa, Phys. Rev. B 88, 104427 (1-6) (2013).
†Ground-State Energies of Spinless Free Fermions and Hard-Core Bosons: W. Nie, H. Katsura and M. Oshikawa, Phys. Rev. Lett. 111, 100402 (1-5) (2013).
139.
「古典モンテカルロ法を用いた重い電子系の研究」 西原 英臣, 東京大学大学院理学系研究科物理学専攻 (2013).
Spin-Triplet Superconductivity Induced by Longitudinal Ferromagnetic Fluctuations in UCoGe: Theoretical Aspect: Y. Tada, S. Fujimoto, N. Kawakami, T. Hattori, Y. Ihara, K. Ishida, K. Deguchi, N. K Sato and I. Satoh, J. Phys.: Conf. Ser. 449, 012029 (1-13) (2013).
†Correlation effects in two-dimensional topological insulators: Y. Tada, R. Peters, M. Oshikawa, A. Koga, N. Kawakami and S. Fujimoto, Phys. Rev. B 85, 165138(1-18) (2012).
†Field theory analysis of S=1 antiferromagnetic bond-alternating chains in the dimer phase: J. Tamaki and M. Oshikawa, Phys. Rev. B 85, 134431(1-10) (2012).
†General method for calculating the universal conductance of strongly correlated junctions of multiple quantum wires: A. Rahmani, C.-Y. Hou, A. Feiguin, M. Oshikawa, C. Chamon and I. Affleck, Phys. Rev. B 85, 045120(1-24) (2012).
Mass ratio of elementary excitations in frustrated antiferromagnetic chains with dimerization: S. Takayoshi and M. Oshikawa, Phys. Rev. B 86, 144408 (1-6) (2012).
†Quasiparticle statistics and braiding from ground-state entanglement: Y. Zhang, T. Grover, A. Turner, M. Oshikawa and A. Vishwanath, Phys. Rev. B 85, 235151(1-15) (2012).
†Symmetry protection of topological phases in one-dimensional quantum spin systems: F. Pollmann, E. Berg, A. M. Turner and M. Oshikawa, Phys. Rev. B 85, 075125(1-9) (2012).
†Thermodynamic properties of quantum sine-Gordon spin chain system KCuGaF6: I. Umegaki, H. Tanaka, T. Ono, M. Oshikawa and K. Sakai, Phys. Rev. B 85, 144423(1-9) (2012).
†Boundary Resonances in S=1/2 Antiferromagnetic Chains Under a Staggered Field: S. C. Furuya and M. Oshikawa, Phys. Rev. Lett. 109, 247603(1-5) (2012).
†Electron Spin Resonance Shift in Spin Ladder Compounds: S. C. Furuya, P. Bouillot, C. Kollath, M. Oshikawa and T. Giamarchi, Phys. Rev. Lett. 108, 037204(1-5) (2012).
†Instability in Magnetic Materials with a Dynamical Axion Field: H. Ooguri and M. Oshikawa, Phys. Rev. Lett. 108, 161803(1-5) (2012).
†Superconductivity Induced by Longitudinal Ferromagnetic Fluctuations in UCoGe: T. Hattori, Y. Ihara, Y. Nakai, K. Ishida, Y. Tada, S. Fujimoto, N. Kawakami, E. Osaki, K. Deguchi, N. Sato and I. Satoh, Phys. Rev. Lett. 108, 066403(1-5) (2012).
152.
「2次元p状態クロック模型におけるBerezinskii-Kosterlitz-Thouless転移」 熊野 裕太, 東京大学大学院 物理学専攻 (2012).
153.
Correspondence between one dimensional quantum many-body systems and the bosonized effective field theory: S. Takayoshi, Department of Physics, University of Tokyo (2012).
154.
Theory of electron spin resonance in low-dimensional quantum spin systems: S. C. Furuya, Department of Physics, University of Tokyo (2012).
155.
「鏡像法」〜数え上げ問題からモノポールまで〜: 押川 正毅, 数理科学 588, 28-54 (2012).
†Four-dimensional XY quantum critical behavior of 4He in nanoporous media: T. Eggel, M. Oshikawa and K. Shirahama, Phys. Rev. B 84, 020515(R) (1-4) (2011).
†Semiclassical approach to electron spin resonance in quantum spin systems: S. C. Furuya, M. Oshikawa and I. Affleck, Phys. Rev. B 83, 224417 (1-14) (2011).
†Single-ion anisotropy in Haldane chains and the form factor of the O(3) nonlinear sigma model: S. C. Furuya, T. Suzuki, S. Takayoshi, Y. Maeda and M. Oshikawa, Phys. Rev. B 84, 180410(R) (1-5) (2011).
†Dynamical Theory of Superfluidity in One Dimension: T. Eggel, M. A. Cazalilla and M. Oshikawa, Phys. Rev. Lett. 107, 275302 (1-5) (2011).
160.
Effects of Geometric Confinement on Strongly Correlated Superfluids: T. Eggel, Department of Physics, University of Tokyo (2011).
†Coefficients of bosonized dimer operators in spin-1/2 XXZ chains and their applications: S. Takayoshi and M. Sato, Phys. Rev. B 82, 214420 (2010).
†Entanglement spectrum of a topological phase in one dimension: F. Pollmann, A. M. Turner, E. Berg and M. Oshikawa, Phys. Rev. B 81, 064439 (1-10) (2010).
†Quantum phase transitions in three-leg spin tubes: D. Charrier, S. Capponi, M. Oshikawa and P. Pujol, Phys. Rev. B 82, 075108 (1-20) (2010).
164.
Fractionalization and Topological Order: M. Oshikawa, in: Understanding Quantum Phase Transitions, edited by Lincoln Carr, (CRC Press, 2010), 91-113.
†Spontaneous population imbalance in two-component Bose and Fermi gases: S. Takayoshi, M. Sato and S. Furukawa, Phys. Rev. A 81, 053606 (2010).
Duality in interacting particle systems and boson representation: J. Ohkubo, J. Stat. Phys. 139, 454-465 (2010).
Two Langevin equations in the Doi-Peliti formalism: K. Itakura, J. Ohkubo and S.-I. Sasa, J. Phys. A: Math. Theor. 43, 125001 (1-12) (2010).
168.
「量子ホール効果と1次元離散格子模型」: 押川 正毅, 数理科学 569, 41-47 (2010).
A direct numerical method for obtaining the counting statistics for stochastic processes: J. Ohkubo and T. Eggel, JSTAT 2010, P06013 (2010).
170.
「スピンと磁性」〜スピンの量子性はいかに発現するか〜: 押川 正毅, 別冊数理科学 2010年1月号, 9999 (2010).
Posterior Probability and Fluctuation Theorem in Stochastic Processes: J. Ohkubo, J. Phys. Soc. Jpn. 78, 123001 (1-4) (2009).
†Analytic Thermodynamics and Thermometry of Gaudin-Yang Fermi Gases: E. Zhao, X.-W. Guan, W. Vincent Liu, M. T. Batchelor and M. Oshikawa, Phys. Rev. Lett. 103, 140404(1-4) (2009).
173.
Classical Dynamics of the O(3) Nonlinear Sigma Model: S. Furuya, Department of Physics, University of Tokyo (2009).
†1次元ボース凝縮体の接合における輸送現象: 得能 光行, 押川 正毅, 日本物理学会誌 64, 773-777 (2009).
†Skyrmion in spinor condensates and its stability in trap potentials: A. Tokuno, Y. Mitamura, M. Oshikawa and I. F. Herbut, Phys. Rev. A 79, 053626 (1-5) (2009).
Variational principle of counting statistics in master equations: J. Ohkubo, Phys. Rev. E 80, 012101 (1-4) (2009).
†*Magnetic-Field Induced Bose-Einstein Condensation of Magnons and Critical Behavior in Interacting Spin Dimer System: F. Yamada, T. Ono, H. Tanaka, G. Misguich, M. Oshikawa and T. Sakakibara, J. Phys. Soc. Jpn. 77, 013701 (1-4) (2008).
178.
†Transition Phenomena Induced by Internal Noise and Quasi-Absorbing State: J. Ohkubo, N. Shnerb and D. A. Kessler, J. Phys. Soc. Jpn. 77, 044002 (1-5) (2008).
A simplified proposal for modelling the Berezinskii-Kosterlitz-Thouless Transition in the NiGa2S4: C.-H. Chern, Phys. Rev. B 78, 020403(R) (2008).
*Thermodynamics of the quantum Ising model in the two-dimensional kagome lattice: C.-H. Chern and M. Tsukamoto, Phys. Rev. B 77, 172404 (2008).
†Dynamics of One-Dimensional Bose Liquids: Andreev-Like Reflection at Y Junctions and the Absence of the Aharonov-Bohm Effect: A. Tokuno, M. Oshikawa and E. Demler, Phys. Rev. Lett. 100, 140402 (1-4) (2008).
182.
†Tomonaga-Luttinger Liquid Aspects of One-Dimensional Bose Systems: A. Tokuno, Tokyo Institute of Technology (2008).
183.
†「多層グラフェンにおける輸送現象と磁気的性質」 平澤 梨良, 東京工業大学 物性物理学専攻 (2008).
184.
†「擬1次元スピンギャップ系の磁場誘起臨界現象の研究」 小野 友也, 東京工業大学 物性物理学専攻 (2008).
185.
Approximation scheme for master equations: Variational approach to multivariate case: J. Ohkubo, J. Chem. Phys. 129, 044108 (1-8) (2008).
186.
Current and fluctuation in a two-state stochastic system under nonadiabatic periodic perturbation: J. Ohkubo, J. Chem. Phys. 129, 205102 (1-6) (2008).
The stochastic pump current and the non-adiabatic geometrical phase: J. Ohkubo, J. Stat. Mech. 2008, P02011 (1-12) (2008).
188.
†Hannay angle and geometric phase shifts under adiabatic parameter changes in classical dissipative systems: N. A. Sinitsyn and J. Ohkubo, J. Phys. A: Math. Theor. 41, 262002 (1-4) (2008).
189.
†Power-law behavior and condensation phenomena in disordered urn models: J.-I. Inoue and J. Ohkubo, J. Phys. A: Math. Theor. 41, 324020 (1-14) (2008).
†Reduced density matrices and topological order in a quantum dimer model: S. Furukawa, G. Misguich and M. Oshikawa, J. Phys.: Condens. Matter 19, 145212 (1-6) (2007).
Free Energy of Disordered Urn Models in the Canonical Ensemble: J. Ohkubo, J. Phys. Soc. Jpn. 76, 095002 (1-2) (2007).
†Magnon bands of N-leg integer-spin antiferromagnetic systems in the weak interchain-coupling regime: M. Sato and M. Oshikawa, Phys. Rev. B 75, 014404 (1-10) (2007).
†Universal temperature dependence of the magnetization of gapped spin chains: Y. Maeda, C. Hotta and M. Oshikawa, Phys. Rev. Lett. 99, 057205 (1-4) (2007).
194.
Characterization of Exotic Orders in Quantum Spin Systems: S. Furukawa, Tokyo Institute of Technology (2007).
195.
†「O(4)対称性を持つスピノル場におけるスカーミオンの安定性について」 三田村 陽平, 東京工業大学物性物理学専攻 (2007).
196.
†スケールフリーネットワークモデル: 大久保 潤, 「ネットワーク科学の道具箱」, 第1章, 林幸雄, (近代科学社, 東京新宿区, 2007), 1-28.
197.
†「磁気異方性のある有限Haldane鎖の端状態間相互作用の鎖長依存性」 石川 陽平, 東京工業大学物性物理学専攻 (2007).
Condensation phenomena with distinguishable particles: J. Ohkubo, Phys. Rev. E 76, 051108 (1-6) (2007).
199.
Theory of four-dimensional fractional quantum Hall effect: C.-H. Chern, Ann. Phys. 322, 2485 (2007).
†Topological degeneracy of non-Abelian states for dummies: M. Oshikawa, Y. B. Kim, K. Shtengel, C. Nayak and S. Tewari, Ann. Phys. 322, 1477-1498 (2007).
A field theoretic approach to master equations and a variational method beyond the Poisson ansatz: J. Ohkubo, J. Stat. Mech. 2008, P09017 (1-13) (2007).
202.
トポロジカル秩序: 押川 正毅, 数理科学 528, 56 - 61 (2007).
Bose–Einstein condensates: Fluctuating fringes: M. Oshikawa, Nature Phys. 2, 663 (2006).
