Publication before 2020

  1. Ryuta Iwazaki, Naoto Tsuji, Shintaro Hoshino, 
    “Nature of the superconducting fluctuations in photoexcited systems”,
    Phys. Rev. B 100, 104521 (2019). (arXiv:1904.05820)
  2. Sharareh Sayyad, Naoto Tsuji, Abolhassan Vaezi, Massimo Capone, Martin Eckstein, Hideo Aoki,
    “Momentum-dependent relaxation dynamics of the doped repulsive Hubbard model”,
    Phys. Rev. B 99, 165132 (2019). (arXiv:1811.11410)
  3. Naoto Tsuji, Philipp Werner, 
    “Out-of-time-ordered correlators of the Hubbard model: Sachdev-Ye-Kitaev strange metal in the spin freezing crossover region”,
    Phys. Rev. B 99, 115132 (2019). (arXiv:1812.04217)
  4. Sharareh Sayyad, Naoto Tsuji, Massimo Capone, Hideo Aoki, “SO(4) FLEX+DMFT formalism with SU(2)⊗SU(2)-symmetric impurity solver for superconductivity in the repulsive Hubbard model”. (arXiv:1903.05800)
  5. Naoto Tsuji, Masahito Ueda, “Fluctuation theorem for quantum-state statistics”. (arXiv:1807.11683)
  6. Naoto Tsuji, Tomohiro Shitara, Masahito Ueda, 
    “Bound on the exponential growth rate of out-of-time-ordered correlators”, 
    Phys. Rev. E 98, 012216 (2018). (arXiv:1706.09160)
  7. Kota Katsumi, Naoto Tsuji, Yuki I. Hamada, Ryusuke Matsunaga, John Schneeloch, Ruidan D. Zhong, Genda D. Gu, Hideo Aoki, Yann Gallais, Ryo Shimano, 
    “Higgs Mode in the d-Wave Superconductor Bi2Sr2CaCu2O8+x Driven by an Intense Terahertz Pulse”, 
    Phys. Rev. Lett. 120, 117001 (2018)[Editors’ Suggestion. Press release. 日本経済新聞.] (arXiv:1711.04923)
  8. Naoto Tsuji, Tomohiro Shitara, Masahito Ueda, 
    “Out-of-time-order fluctuation-dissipation theorem”, 
    Phys. Rev. E 97, 012101 (2018). (arXiv:1612.08781)
  9. Ryusuke Matsunaga, Naoto Tsuji, Kazumasa Makise, Hirotaka Terai, Hideo Aoki, Ryo Shimano,
    “Polarization-resolved terahertz third-harmonic generation in a single-crystal superconductor NbN: Dominance of the Higgs mode beyond the BCS approximation”, 
    Phys. Rev. B 96, 020505(R) (2017). (arXiv:1703.02815)
  10. Yuta Murakami, Naoto Tsuji, Martin Eckstein, Philipp Werner, 
    “Nonequilibrium steady states and transient dynamics of conventional superconductors under phonon driving”,
    Phys. Rev. B 96, 045125 (2017)[Editors’ Suggestion.] (arXiv:1702.02942)
  11. Yuta Murotani, Naoto Tsuji, Hideo Aoki, 
    “Theory of light-induced resonances with collective Higgs and Leggett modes in multiband superconductors”, 
    Phys. Rev. B 95, 104503 (2017). (arXiv:1511.05762)
  12. Motoharu Kitatani, Naoto Tsuji, Hideo Aoki, 
    “Interplay of Pomeranchuk instability and superconductivity in the two-dimensional repulsive Hubbard model”,
    Phys. Rev. B 95, 075109 (2017). (arXiv:1609.05759)
  13. Naoto Tsuji, Philipp Werner, Masahito Ueda, 
    “Exact out-of-time-ordered correlation functions for an interacting lattice fermion model”, 
    Phys. Rev. A 95, 011601(R) (2017). (arXiv:1610.01251)
  14. Naoto Tsuji, Yuta Murakami, Hideo Aoki,
    “Nonlinear light-Higgs coupling in superconductors beyond BCS: Effects of the retarded phonon-mediated interaction”,
    Phys. Rev. B 94, 224519 (2016). (arXiv:1606.05024)
  15. Andreas J. Herrmann, Naoto Tsuji, Martin Eckstein, Philipp Werner,
    “Nonequilibrium dynamical cluster approximation study of the Falicov-Kimball model”,
    Phys. Rev. B 94, 245114 (2016). (arXiv:1609.04708)
  16. Yuta Murakami, Philipp Werner, Naoto Tsuji, Hideo Aoki,
    “Damping of the collective amplitude mode in superconductors with strong electron-phonon coupling”,
    Phys. Rev. B 94, 115126 (2016). (arXiv:1604.08073)
  17. Masahiko G. Yamada, Tomohiro Soejima, Naoto Tsuji, Daisuke Hirai, Mircea Dinca, Hideo Aoki,
    “First-principles design of a half-filled flat band of the kagome lattice in two-dimensional metal-organic frameworks”,
    Phys. Rev. B 94, 081102(R) (2016). (arXiv:1510.00164)
  18. Takahiro Mikami, Sota Kitamura, Kenji Yasuda, Naoto Tsuji, Takashi Oka, Hideo Aoki,
    “Brillouin-Wigner theory for high-frequency expansion in periodically driven systems: Application to Floquet topological insulators”,
    Phys. Rev. B 93, 144307 (2016). [Erratum: Phys. Rev. B 99, 019902 (2019).] (arXiv:1511.00755)
  19. Yuta Murakami, Philipp Werner, Naoto Tsuji, Hideo Aoki,
    “Multiple amplitude modes in strongly-coupled phonon-mediated superconductors”,
    Phys. Rev. B 93, 094509 (2016). (arXiv:1511.06105)
  20. Masataka Watanabe, Hisato Komatsu, Naoto Tsuji, Hideo Aoki,
    “Electronic structure of helicoidal graphene: massless Dirac particles on a curved surface with a screw symmetry”,
    Phys. Rev. B 92, 205425 (2015). [Erratum: Phys. Rev. B 92, 239902 (2015).] (arXiv:1505.05159)
  21. Naoto Tsuji, Hideo Aoki,
    “Theory of Anderson pseudospin resonance with Higgs mode in superconductors”,
    Phys. Rev. B 92, 064508 (2015). (arXiv:1404.2711)
  22. Motoharu Kitatani, Naoto Tsuji, Hideo Aoki,
    “FLEX+DMFT approach to the d-wave superconducting phase diagram of the two-dimensional Hubbard model”,
    Phys. Rev. B 92, 085104 (2015). (arXiv:1505.04865)
  23. Sota Kitamura, Naoto Tsuji, Hideo Aoki,
    “Interaction-Driven Topological Insulator in Fermionic Cold Atoms on an Optical Lattice: A Design with a Density Functional Formalism”,
    Phys. Rev. Lett. 115, 045304 (2015). (arXiv:1411.3345)
  24. Yuta Murakami, Philipp Werner, Naoto Tsuji, Hideo Aoki,
    “Interaction quench in the Holstein model: Thermalization crossover from electron- to phonon-dominated relaxation”,
    Phys. Rev. B 91, 045128 (2015). (arXiv:1407.8288)
  25. Yuta Murakami, Philipp Werner, Naoto Tsuji, Hideo Aoki,
    “Supersolid Phase Accompanied by a Quantum Critical Point in the Intermediate Coupling Regime of the Holstein Model”,
    Phys. Rev. Lett. 113, 266404 (2014). (arXiv:1402.6456)
  26. Ryusuke Matsunaga, Naoto Tsuji, Hiroyuki Fujita, Arata Sugioka, Kazumasa Makise, Yoshinori Uzawa, Hirotaka Terai, Zhen Wang, Hideo Aoki, Ryo Shimano,
    “Light-induced collective pseudospin precession resonating with Higgs mode in a superconductor”,
    Science 345, 1145 (2014). [Featured in PerspectivePress releaseUTokyo FOCUSNew Scientist.]
  27. Naoto Tsuji, Peter Barmettler, Hideo Aoki, Philipp Werner,
    “Nonequilibrium dynamical cluster theory”,
    Phys. Rev. B. 90, 075117 (2014). (arXiv:1307.5946)
  28. Hideo Aoki, Naoto Tsuji, Martin Eckstein, Marcus Kollar, Takashi Oka, Philipp Werner,
    “Nonequilibrium dynamical mean-field theory and its applications”,
    Rev. Mod. Phys. 86, 779 (2014). (arXiv:1310.5329)
  29. Naoto Tsuji, Philipp Werner,
    “Nonequilibrium dynamical mean-field theory based on weak-coupling perturbation expansions: Application to dynamical symmetry breaking in the Hubbard model”,
    Phys. Rev. B 88, 165115 (2013)[Editors’ Suggestion.] (arXiv:1306.0307)
  30. Yuta Murakami, Philipp Werner, Naoto Tsuji, Hideo Aoki,
    “Ordered phases in the Holstein-Hubbard model: Interplay of strong Coulomb interaction and electron-phonon coupling”,
    Phys. Rev. B 88, 125126 (2013). (arXiv:1305.5771)
  31. Naoto Tsuji, Martin Eckstein, Philipp Werner,
    “Nonthermal Antiferromagnetic Order and Nonequilibrium Criticality in the Hubbard Model”,
    Phys. Rev. Lett. 110, 136404 (2013). (arXiv:1210.0133)
  32. Philipp Werner, Naoto Tsuji, Martin Eckstein,
    “Nonthermal symmetry-broken states in the strongly interacting Hubbard model”,
    Phys. Rev. B 86, 205101 (2012). (arXiv:1208.0743)
  33. Naoto Tsuji, Takashi Oka, Hideo Aoki, Philipp Werner,
    “Repulsion-to-attraction transition in correlated electron systems triggered by a monocycle pulse”,
    Phys. Rev. B 85, 155124 (2012). (arXiv:1110.2925)
  34. Naoto Tsuji, Takashi Oka, Philipp Werner, Hideo Aoki,
    “Dynamical Band Flipping in Fermionic Lattice Systems: An ac-Field Driven Change of the Interaction from Repulsive to Attractive”,
    Phys. Rev. Lett. 106, 236401 (2011)[Featured in Physics. Editors’ Suggestion.] (arXiv:1008.2594)
  35. Naoto Tsuji, Takashi Oka, Hideo Aoki,
    “Nonequilibrium Steady State of Photoexcited Correlated Electrons in the Presence of Dissipation”,
    Phys. Rev. Lett. 103, 047403 (2009). (arXiv:0903.2332)
  36. Naoto Tsuji, Takashi Oka, Hideo Aoki,
    “Correlated electron systems periodically driven out of equilibrium: Floquet + DMFT formalism”,
    Phys. Rev. B 78, 235124 (2008). (arXiv:0808.0379)
  37. Naoto Tsuji, Shigehiro Takajo, Hideo Aoki,
    “Large orbital magnetic moments in carbon nanotubes generated by resonant transport”,
    Phys. Rev. B 75, 153406 (2007). (arXiv:cond-mat/0607629)