Original Articles

  1. X. Li, M. Bamba, N. Yuan, Q. Zhang, Y. Zhao, M. Xiang, K. Xu, Z. Jin, W. Ren, G. Ma, S. Cao, D. Turchinovich, and J. Kono
    Observation of Dicke Cooperativity in Magnetic Interactions
    Science 361(6404), 794-797 (2018)
  2. W. Gao, X. Li, M. Bamba, and J. Kono
    Continuous transition between weak and ultra-strong coupling through exceptional points in carbon nanotube micro-cavity exciton polaritons
    Nature Photonics 12(6), 362-367 (2018)
  3. X. Li, M. Bamba, Q. Zhang, S. Fallahi, G. C. Gardner, W. Gao, M. Lou, K. Yoshioka, M. J. Manfra, and J. Kono
    Vacuum Bloch-Siegert shift in Landau polaritons with ultra-high cooperativity
    Nature Photonics 12(6), 324-329 (2018)
  4. M. Bamba and N. Imoto
    Circuit configurations which may or may not show superradiant phase transitions
    Physical Review A 96(5), 053857 (11 pages) (2017)
    arXiv:1703.03533 [quant-ph]
  5. M. Bamba, K. Inomata, and Y. Nakamura
    Superradiant Phase Transition in a Superconducting Circuit in Thermal Equilibrium
    Physical Review Letters 117(17), 173601 (5 pages) (2016)
    arXiv:1605.01124 [quant-ph]
  6. M. Bamba and N. Imoto
    Maxwell boundary conditions imply non-Lindblad master equation
    Physical Review A 94(3), 033802 (20 pages) (2016)
    arXiv:1603.00535 [quant-ph]
  7. M. Bamba and T. Ogawa
    Laser under ultrastrong light-matter interaction: Qualitative aspects and quantitative influences by level and mode truncations
    Physical Review A 93(3), 033811 (10 pages) (2016)
    arXiv:1410.3912 [quant-ph]
  8. M. Bamba, S. Wakaiki, H. Ichida, K. Mizoguchi, D. Kim, M. Nakayama, and Y. Kanematsu
    Theory of the lifetime of an exciton incoherently created below its resonance frequency by inelastic scattering
    Physical Review B 91(23), 235205 (13 pages) (2015)
    arXiv:1411.3430 [cond-mat.mes-hall]
  9. M. Bamba and T. Ogawa
    Stability of polarizable materials against superradiant phase transition
    Physical Review A 90(6), 063825 (8 pages) (2014)
    arXiv:1406.2420 [quant-ph]
  10. M. Bamba and T. Ogawa
    Recipe for the Hamiltonian of system-environment coupling applicable to the ultrastrong-light-matter-interaction regime
    Physical Review A 89(2), 023817 (18 pages) (2014)
    arXiv:1306.2099 [quant-ph]
  11. T. Boulier, M. Bamba, A. Amo, C. Adrados, A. Lemaitre, E. Galopin, I. Sagnes, J. Bloch, C. Ciuti, E. Giacobino, and A. Bramati
    Polariton-generated intensity squeezing in semiconductor micropillars
    Nature Communications 5, 3260 (7 pages) (2014)Post-print
  12. M. Bamba and T. Ogawa
    Reply to “Comment on `System-environment coupling derived by Maxwell’s boundary conditions from the weak to the ultrastrong light-matter-coupling regime’ ”
    Physical Review A 89(1), 017802 (2 pages) (2014)
    arXiv:1311.1564 [quant-ph]
  13. M. Bamba and T. Ogawa
    System-environment coupling derived by Maxwell’s boundary conditions from the weak to the ultrastrong light-matter-coupling regime
    Physical Review A 88(1), 013814 (11 pages) (2013)
    arXiv:1301.3960 [quant-ph]
  14. L. Nguyen-thê, S. De Liberato, M. Bamba, and C. Ciuti
    Effective polariton-polariton interactions of cavity-embedded two-dimensional electron gases
    Physical Review B 87(23), 235322 (12 pages) (2013)
    arXiv:1211.5039 [cond-mat.other]
  15. M. Bamba and T. Ogawa
    Dissipation and detection of polaritons in the ultrastrong-coupling regime
    Physical Review A 86(6), 063831 (16 pages) (2012)
    arXiv:1208.5181 [quant-ph]
  16. H. Tahara, M. Bamba, Y. Ogawa, and F. Minami
    Observation of a dynamical mixing process of exciton-polaritons in a ZnSe epitaxial layer using four-wave mixing spectroscopy
    Physical Review B 86(23), 235208 (6 pages) (2012)
  17. M. Bamba and C. Ciuti
    Counter-polarized single-photon generation from the auxiliary cavity of a weakly nonlinear photonic molecule
    Applied Physics Letters 99(17), 171111 (3 pages) (2011)
    arXiv:1108.5061 [quant-ph]
  18. M. Bamba and H. Ishihara
    Generation of entangled-photon pairs from biexcitons in CuCl thin films: Nano-to-bulk crossover regime
    Physical Review B 84(4), 045125 (16 pages) (2011)
    arXiv:1104.0374 [quant-ph]
  19. M. Bamba, A. Imamoğlu, I. Carusotto, and C. Ciuti
    Origin of strong photon antibunching in weakly nonlinear photonic molecules
    Physical Review A 83(2), 021802(R) (4 pages) (2011)
    arXiv:1007.1605 [quant-ph]
  20. M. Bamba and H. Ishihara
    Entangled-Photon Generation in Nano-to-Bulk Crossover Regime
    Physical Review Letters 105(12), 123906 (4 pages) (2010)
    arXiv:1003.0406 [cond-mat.other]
  21. L. Ferrier, S. Pigeon, E. Wertz, M. Bamba, P. Senellart, I. Sagnes, A. Lemaitre, C. Ciuti, and J. Bloch
    Polariton parametric oscillation in a single micropillar cavity
    Applied Physics Letters 97(3), 031105 (3 pages) (2010)
  22. M. Bamba, S. Pigeon, and C. Ciuti
    Quantum squeezing generation versus photon localization in a disordered planar microcavity
    Physical Review Letters 104(21), 213604 (4 pages) (2010)
    arXiv:1002.4804 [cond-mat.other]
  23. M. Bamba and H. Ishihara
    Crossover of exciton-photon coupled modes in a finite system
    Physical Review B 80(12), 125319 (11 pages) (2009)Post-print
    selected for Virtual Journal of Nanoscale Science & Technology, Vol. 20, Issue 14 (October 2009)
  24. M. Bamba and H. Ishihara
    Breakdown of Fermi’s Golden Rule in Exciton-Photon Interaction
    Journal of the Physical Society of Japan 78(4), 043701 (4 pages) (2009)Post-print
  25. M. Bamba and H. Ishihara
    QED of excitons with nonlocal susceptibility in arbitrarily structured dielectrics
    Physical Review B 78(8), 085109 (22 pages) (2008)
    arXiv:0708.2952 [physics.optics]
    selected for Virtual Journal of Nanoscale Science & Technology, Vol. 18, Issue 8 (August 2008)
  26. H. Ishihara, A. Syouji, Y. Segawa, and M. Bamba
    Anomalous exciton-radiation coupling in the nano-to-bulk crossover regime
    Journal of Physics: Condensed Matter 19(44), 445008 (20 pages) (2007)
  27. K. Cho, J. Ushida, and M. Bamba
    Optical Response of Photonic Crystals Requiring High Precision Band Calculation in the Form of k(ω) Including Evanescent Waves
    Journal of the Physical Society of Japan 74(11), 3088-3092 (2005)
    arXiv:cond-mat/0311496 [cond-mat.mtrl-sci]