1. High-harmonic generation in GaAs beyond the perturbative regime, P. Xia, T. Tamaya, C. Kim, F. Lu, T. Kanai, N. Ishii, J. Itatani, H. Akiyama, T. Kato, arXiv:2004.04492. PDF
  2. DSQSS: Discrete Space Quantum Systems Solver, Y. Motoyama, K. Yoshimi, A. Masaki-Kato, T. Kato, and N. Kawashima, arXiv:2007.11329 PDF
  3. Heat transport through quantum Rabi model, T. Yamamoto, T. Kato, arXiv:2011.06815. PDF
  4. Transmission of waves through a pinned elastic medium, T. Yamamoto, L. I. Glazman, and M. Houzet, arXiv:2012.00305. PDF
  5. Piezo-optic effect of high-harmonic generation in semiconductors, T. Tamaya and T. Kato, arXiv:2012.14572. PDF
  1. Fano-Kondo resonance versus Kondo plateau in an Aharonov-Bohm ring with an embedded quantum dot, M. Eto and R. Sakano, Phys. Rev. B 102, 245402 (2020). PDF
  2. Geometrical optimization of pumping power under adiabatic parameter driving, M. Hasegawa and T. Kato, J. Phys. Soc. Jpn. 89, 064706 (2020). PDF
  3. Photon-Assisted Cooper-Pair Tunneling and Microwave Power Renormalization in Small Josephson Junction Arrays, G. M. Kanyolo, K. Takeda, Y. Mizugaki, T. Kato, H. Shimada, J. Low Temp. Phys. (2020). PDF
  4. Microscopic theory of spin Hall magnetoresistance, T. Kato, Y. Ohnuma, and M. Matsuo, Phys. Rev. B 102, 094437 (2020).PDF
  5. Field-induced SU(4) to SU(2) Kondo crossover in a half-filling nanotube dot: spectral and finite-temperature properties, Y. Teratani, R. Sakano, T. Hata, T. Arakawa, M. Ferrier, K. Kobayashi, A. Oguri, Phys. Rev. B 102, 165106 (2020). PDF
  6. Fermi Liquid Theory for Nonlinear Transport through a Multilevel Anderson Impurity, Y. Teratani, R. Sakano, A. Oguri, Phys. Rev. Lett. 125, 216801 (2020). PDF
  1. mVMC—Open-source software for many-variable variational Monte Carlo method, T. Misawa, S. Morita, K. Yoshimi, M. Kawamura, Y. Motoyama, K. Ido, T. Ohgoe, M. Imada, and T. Kato, Comput. Phys. Commun. 235, 447-462 (2019). [Open Access] PDF
  2. Bell-state correlations of quasiparticle pairs in the nonlinear current of a local Fermi liquidR. Sakano, A. Oguri, Y. Nishikawa and E. AbePhys. Rev. B 99,155106 (2019).PDF
  3. Microscopic theory of spin transport at an interface between a superconductor and a ferromagnetic insulator, T. Kato, Y. Ohnuma, M. Matsuo, J. Rech, T. Jonckheere, and T. Martin, Phys. Rev. B 99, 144411 (2019).PDF
  4. Surface plasmon polaritons in thin-film Weyl semimetals, T. Tamaya, T. Kato, K. Tsuchikawa, S. Konabe, and S. Kawabata, J. Phys.: Condens. Matter 31, 305001  (2019).PDF
  5. Signature of the transition to a bound state in thermoelectric quantum transport, É. Jussiau, M. Hasegawa, and R. S. Whitney, Phys. Rev. B 100, 115411 (2019).PDF
  6. Adiabatic almost-topological pumping of fractional charges in non-interacting quantum dots, M. Hasegawa, É. Jussiau, R. S. Whitney, Phys. Rev. B 100, 125420 (2019).PDF
  7. Subband picture of high-harmonic generation in solids, T. Tamaya and T. Kato, Phys. Rev. B 100, 081203(R) (2019).PDF
  8. Microwave Scattering in the Subohmic Spin-Boson Systems in Superconducting Circuits, T. Yamamoto and T. Kato, J. Phys. Soc. Jpn. 88, 094601 (2019). [Editor’s Choice] PDF
  9. Quantum Noise in Carbon Nanotubes as a Probe of Correlations in the Kondo Regime, M. Ferrier, R. Delagrange, J. Basset, H. Bouchiat, T. Arakawa, T. Hata, R. Fujiwara, Y. Teratani, R. Sakano, A. Oguri, K. Kobayashi, and R. Deblock, J. Low Temp. Phys. -, 1-34, (2019).PDF
  1. DC-Current Induced Domain Wall in a Chiral p-Wave SuperconductorT. Jonckheere and T. KatoJ. Phys. Soc. Jpn. 87, 094705(1-6) (2018).PDF
  2. Effect of Interaction on Reservoir-Parameter-Driven Adiabatic Charge Pumping via a Single-Level Quantum Dot SystemM. Hasegawa and T. KatoJ. Phys. Soc. Jpn. 87044709(1-13) (2018).PDF
  3. Current cross-correlation in the Anderson impurity model with exchange interactionR. Sakano, A. Oguri, Y. Nishikawa and E. AbePhys. Rev. B 97045127(1-13) (2018).PDF
  4. Spin Current Noise of the Spin Seebeck Effect and Spin PumpingM. Matsuo, Y. Ohnuma, T. Kato and S. MaekawaPhys. Rev. Lett. 120235120(1-5) (2018).PDF
  5. Quantum Critical Phenomena in Heat Transport via a Two-State System, T. Yamamoto, T. Kato, Phys. Rev. B 98, 245412(1-8) (2018).PDF
  6. Evolution of Magnetic Double Helix and Quantum Criticality near a Dome of Superconductivity in CrAs, M. Matsuda, F. K. Lin, R. Yu, J.-G. Cheng, W. Wu, J. P. Sun, J. H. Zhang, P. J. Sun, K. Matsubayashi, T. Miyake, T. Kato, J.-Q. Yan, M. B. Stone, Qimiao Si, J. L. Luo, and Y. Uwatoko, Phys. Rev. X 8, 031017(1-12) (2018). [Open Access] PDF
  7. Heat transport via a local two-state system near thermal equilibrium, T. Yamamoto, M. Kato, T. Kato, K. Saito, New J. Phys. 20, 093014(1-20) (2018). [Open Access] PDF
  1. Quantum Fluctuations along Symmetry Crossover in a Kondo-Correlated Quantum Dot, M. Ferrier, T. Arakawa, T. Hata, R. Fujiwara, R. Delagrange, R. Deblock, Y. Teratani, R. Sakano, A. Oguri, and K. Kobayashi, Phys. Rev. Lett. 118, 196803(1-5) (2017). PDF
  2. Temperature-Driven and Electrochemical-Potential-Driven Adiabatic Pumping via a Quantum Dot, M. Hasegawa, and T. Kato, J. Phys. Soc. Jpn. 86, 024710(1-13) (2017). [Open Access] PDF
  3. Observation of long-lived coherent spin precession in orthoferrite ErFeO3 induced by terahertz magnetic fields, H. Watanabe, T. Kurihara, T. Kato, K. Yamaguchi, and T. Suemoto, App. Phys. Lett. 111, 092401(1-4) (2017). PDF
  4. First-principles description of van der Waals bonded spin-polarized systems using the vdW-DF+U method: Application to solid oxygen at low pressure: S. Kasamatsu, T. Kato and O. Sugino, Phys. Rev. B 95, 235120(1-11) (2017). PDF
  1. Universality of non-equilibrium fluctuations in strongly correlated quantum liquids: M. Ferrier, T. Arakawa, T. Hata, R. Fujiwara, R. Delagrange, R. Weil, R. Deblock, R. Sakano, A. Oguri, and K. Kobayashi, Nat. Phys. 12, 230-235 (2016).PDF
  2. Field-Enhanced Kondo Correlations in a Half-Filling Nanotube Dot: Evolution of an SU(N) Fermi-Liquid Fixed Point: Y. Teratani, R. Sakano, R. Fujiwara, T. Hata, T. Arakawa, M. Ferrier, K. Kobayashi, and A. Oguri, J. Phys. Soc. Jpn. 85, 094718(1-18) (2016).PDF
  3. Electrical conductivity through a single atomic step measured with the proximity-induced superconducting pair correlation
    H. Kim, S.-Z. Lin, M. J. Graf, Y. Miyata, Y. Nagai, T. Kato, Y. Hasegawa
    Phys. Rev. Lett. 117, 116802(1-5) (2016).PDF
  4. Pressure dependence of the magnetic ground states in MnP, M. Matsuda, F. Ye, S. E. Dissanayake, J.-G. Cheng, S. Chi, J. Ma, H. D. Zhou, J.-Q. Yan, S. Kasamatsu, O. Sugino, T. Kato, K. Matsubayashi, T. Okada, Y. Uwatoko, Phys. Rev. B 93, 100405(R)(1-5) (2016).PDF
  5. Order, disorder, and tunable gaps in the spectrum of Andreev bound states in a multiterminal superconducting device, T. Yokoyama, J. Reutlinger, W. Belzig and Y. V. NazarovPhys. Rev. B 95045411(1-20) (2016).PDF
  1. Effects of Coulomb interaction on photon-assisted current noise through a quantum dot, T. J. Suzuki and T. Kato, Phys. Rev. B 91, 165302(1-12) (2015).PDF
  2. Exact Green’s function for a multiorbital Anderson impurity at high bias voltages, A. Oguri and R. Sakano, Phys. Rev. B 91, 115429(1-14) (2015).PDF
  1. Spatial effect on stochastic dynamics of bistable evolutionary games, K. H. Z. So, H. Otsuki, and T. Kato, J. Stat. Mech. 2014, P10020(1-34) (2014).PDF
  2. Dephasing in single-electron generation due to environmental noise probed by Hong-Ou-Mandel interferometry: E. Iyoda, T. Kato, K. Koshino, and T. Martin, Phys. Rev. B 89, 205318(1-8) (2014).PDF
  1. Properties of a Single Photon Generated by a Solid-State Emitter: Effects of Pure Dephasing: E. Iyoda, T. Kato, T. Aoki, K. Edamatsu, and K. Koshino, J. Phys. Soc. Jpn. 82, 014301(1-10) (2013).PDF
  2. Experimental Verification of Comparability between Spin-Orbit and Spin-Diffusion Lengths: Y. Niimi, D. Wei, H. Idzuchi, T. Wakamura, T. Kato, and Y. Otani, Phys. Rev. Lett. 110, 016805(1-5) (2013).PDF
  3. Relaxor Behavior and Morphotropic Phase Boundary in a Simple Model, Y. Tomita and T. KatoJ. Phys. Soc. Jpn. 82063002(1-5) (2013).[Open Access] PDF
  4. Exact interacting Green’s function for the Anderson impurity at high bias voltages, A. Oguri and R. SakanoPhys. Rev. B 88155424(1-12) (2013).PDF
  5. Kondo Signature in Heat Transfer via a Local Two-State SystemK. Saito and T. KatoPhys. Rev. Lett. 111214301(1-5) (2013).PDF
  6. 1/(N−1) expansion approach to full-counting statistics for the SU(N) Anderson modelA. Oguri and R. SakanoJ. Kor. Phys. Soc. 63 (2013423-427.PDF
  1. Full Counting Statistics for Orbital-Degenerate Impurity Anderson Model with Hund’s Rule Exchange Coupling: Rui Sakano, Yunori Nishikawa, Akira Oguri, Alex C. Hewson, and Seigo Tarucha, Phys. Rev. Lett. 108, 266401(1-5) (2012).PDF
  2. Finite temperature neutral-ionic transition and lattice dimerization in charge-transfer complexes: QMC studyY. Otsuka, H. Seo, K. Yoshimi and T. KatoPhysica B 4071793-1795 (2012).PDF
  1. Full counting statistics for SU(N) impurity Anderson model: R. Sakano, R. Oguri, T. Kato, and S. Tarucha, Phys. Rev. B, 83, 241301(1-4)(R) (2011).PDF
  2. Analysis of Shot Noise at Finite Temperatures in Fractional Quantum Hall Edge States: E. Iyoda and T. Fujii, J. Phys. Soc. Jpn. 80, 073709(1-4) (2011).PDF
  3. Fermi Surface Deformation Near Charge-Ordering Transition: K. Yoshimi, T. Kato, and H. Maebashi, J. Phys. Soc. Jpn. 80, 123707(1-4) (2011).PDF
  1. Monte Carlo Study of Relaxor Systems: A Minimum Model of Pb(In1/2Nb1/2)O3: Y. Tomita, T. Kato and K. Hirota, J. Phys. Soc. Jpn. 79, 023001(1-4) (2010).PDF
  2. Nonequilibrium Extension of Onsager Relations for Thermoelectric Effects in Mesoscopic Conductors: E. Iyoda, Y. Utsumi and T. Kato, J. Phys. Soc. Jpn. 79 (2010) 045003(1-2).PDF
  3. Bidirectional single-electron counting and the fluctuation theorem: Y. Utsumi, D. S. Golubev, M. Marthaler, K. Saito, T. Fujisawa and G. Schon,Phys. Rev. B 81 (2010) 125331(1-5).PDF
  4. Dynamic response of a mesoscopic capacitor in the presence of strong electron interactions: Y. Hamamoto, T. Jonckheere, T. Kato and T. Martin, Phys. Rev. B 81 (2010) 153305(1-4).PDF
  5. Nonequilibrium Fluctuation Relations in a Quantum Coherent Conductor: S. Nakamura, Y. Yamauchi, M. Hashisaka, K. Chida, K. Kobayashi, T. Ono, R. Leturcq, K. Ensslin, K. Saito, Y. Utsumi and A. C. Gossard, Phys. Rev. Lett. 104 (2010) 080602(1-4).PDF
  6. Transport Phenomena and Quantum Phase Transitions in Mesoscopic Systems: Y. Hamamoto, Graduate School of Science, The University of Tokyo (2010).
  1. Phase competitions and coexistences in quasi-one-dimensional molecular conductors: Exact diagonalization study: Y. Otsuka, H. Seo, Y. Motome and T. Kato, Physica B 404 (2009) 479-481.PDF
  2. *Enhanced Spin Susceptibility toward the Charge-Ordering Transition in a Two-Dimensional Extended Hubbard Model: K. Yoshimi, T. Kato and H. Maebashi, J. Phys. Soc. Jpn. 78 (2009) 104002(1-11).PDF
  3. Fluctuation theorem in a quantum-dot Aharonov-Bohm interferometer:Y. Utsumi and K. Saito, Phys. Rev. B 79 (2009) 235311(1-9).PDF
  4. Theory of fractional vortex escape in a long Josephson junction: K. Vogel, W. Schleich, T. Kato, D. Koelle, R. Kleiner and E. Goldobin, Phys. Rev. B 80 (2009) 134515(1-11).PDF
  5. Fluctuations in Charge Ordering Phenomena: K. Yoshimi, Graduate School of Science, The University of Tokyo (2009).
  6. TWO-DIMENSIONAL MACROSCOPIC QUANTUM DYNAMICS IN YBCO JOSEPHSON JUNCTIONS: S. Kawabata, T. Kato, T. Lombardi and T. Bauch, Int. J. Mod. Phys. B 23 (2009) 4329-4337.PDF
  7. Theory of two-dimensional macroscopic quantum tunneling in a Josephson junction coupled with an LC circuit: S. Kawabata, T. Kato and T. Bauch, J. Phys: Conf. Ser. 150 (2009) 052105(1-4).PDF
  8. Numerical study of the Coulomb blockade in an open quantum dot: Y. Hamamoto and T. Kato, J. Phys.: Conf. Ser. 150 (2009) 022021(1-4).PDF
  1. Finite-Temperature Phase Diagram of Quasi-One-Dimensional Molecular Conductors: Quantum Monte Carlo Study: Y. Otsuka, H. Seo, Y. Motome and T. Kato, J. Phys. Soc. Jpn. 77, 113705(1-4) (2008).PDF
  2. Numerical study of the Coulomb blockade in an open quantum dot: Y. Hamamoto and T. Kato, Phys. Rev. B 77, 245325(1-5) (2008).PDF
  3. Numerical study of transport through a single impurity in a spinful Tomonaga-Luttinger liquid: Y. Hamamoto, K. -I. Imura and T. Kato,Phys. Rev. B 77, 165402(1-9) (2008).PDF
  4. Quantum-classical transition and decoherence in dissipative double-well potential systems: Monte Carlo algorithm: T. Matsuo, Y. Natsume and T. Kato, Phys. Rev. B 77, 184304(1-8) (2008).PDF
  5. Symmetry in full counting statistics, fluctuation theorem, and relations among nonlinear transport coefficients in the presence of a magnetic field: K. Saito and Y. Utsumi, Phys. Rev. B 78, 115429(1-7) (2008).PDF
  1. Finite-Temperature Phase Transitions in Quasi-One-Dimensional Molecular Conductors: H. Seo, Y. Motome and T. Kato, J. Phys. Soc. Jpn. 76, 013707(1-4) (2007).PDF
  2. Thermopower of a Quantum Dot in a Coherent Regime: T. Nakanishi and T. Kato, J. Phys. Soc. Jpn. 76, 034715(1-5) (2007).PDF
  3. Decoherence in a superconducting flux qubit with a pi-junction: T. Kato, A. A. Golubov and Y. Nakamura, Phys. Rev. B 76, 172502(1-4) (2007).PDF
  4. Theory of macroscopic quantum tunneling in high-Tc c-axis Josephson junctions: T. Yokoyama, S. Kawabata, T. Kato and Y. Tanaka, Phys. Rev. B 76, 134501(1-14) (2007).PDF
  5. Therory of macroscopic quantum coherence in d-wave superconductor junctions: T. Umeki, T. Kato, T. Yokoyama, Y. Tanaka, S. Kawabata and S. Kashiwaya, Physica C 463-465, 157-160 (2007).PDF
  6. Enhancement of non-escape probability in open chaotic system due to quantum localization induced by periodic orbits: A. Budiyono, T. Kato, K. Takatsuka and K. Nakamura, Phys. Lett. A 367, 331-334 (2007).PDF
  7. Theory of Macroscopic Quantum Tunneling and Dissipation in High-Tc Josephson Junctions: S. Kawabata, S. Kashiwaya, Y. Asano, Y. Tanaka, T. Kato and A. Golubov, Supercond. Sci. Tech. 20 (2007) , S6-S9 (2007).PDF
  1. Quantum-Classical Transition in Dissipative Double-Well Systems — A Numerical Study by a New Monte Carlo Scheme —: M. Matsuo, Y. Natsume and T. Kato, J. Phys. Soc. Jpn. 75, 103002(1-4) (2006).PDF