Superconducting qubits for quantum information

    1. J.Q. You, J.S. Tsai, F. Nori
      Scalable quantum computing with Josephson junction qubits
      Phys. Rev. Lett. 89, 197902 (2002). [PDF][Link][arXiv]

    2. J.Q. You, F. Nori
      Quantum information processing with superconducting qubits in a microwave field
      Phys. Rev. B 68, 064509 (2003). [PDF][Link][arXiv]
      PDF as of 2002-07-02.

    3. J.Q. You, J.S. Tsai, F. Nori
      Experimentally realizable scalable quantum computing using superconducting qubits
      Physica E 18, 35 (2003). [Link]

    4. L.F. Wei, Y.X. Liu, F. Nori
      Coupling Josephson qubits via a current-biased information bus
      Europhys. Lett. 67, 1004-1010 (2004). [PDF][Link][arXiv]

    5. Y.X. Liu, L.F. Wei, F. Nori
      Generation of non-classical photon states using a superconducting qubit in a quantum electrodynamic microcavity
      Europhys. Lett. 67, 941-947 (2004). [PDF][Link][arXiv]

    6. J.Q. You, Y. Nakamura, F. Nori
      Fast two-bit operations in inductively coupled flux qubits
      Phys. Rev. B 71, 024532 (2005). [PDF][Link][arXiv]

    7. L.F. Wei, Y.X. Liu, F. Nori
      Quantum computation with Josephson qubits using a current-biased information bus
      Phys. Rev. B 71, 134506 (2005). [PDF][Link][arXiv]

    8. L.F. Wei, Y.X. Liu, F. Nori
      Testing Bell's inequality in constantly coupled Josephson circuits by effective single-qubit operations
      Phys. Rev. B 72, 104516 (2005). [PDF][Link][arXiv]

    9. Y.A. Pashkin, T. Yamamoto, O. Astafiev, Y. Nakamura, D.V. Averin, T. Tilma, F. Nori, J.S. Tsai
      Coherent manipulation of coupled Josephson charge qubits
      Physica C 426-431, 1552-1560 (2005). [PDF][Link]

    10. Y.X. Liu, J.Q. You, L.F. Wei, C.P. Sun, F. Nori
      Optical selection rules and phase-dependent adiabatic state control in a superconducting quantum circuit
      Phys. Rev. Lett. 95, 087001 (2005). [PDF][Link][arXiv]

    11. Y.X. Liu, L.F. Wei, F. Nori
      Preparation of macroscopic quantum superposition states of a cavity field via coupling to a superconducting charge qubit
      Phys. Rev. A 71, 063820 (2005). [PDF][Link][arXiv]

    12. Y.X. Liu, L.F. Wei, F. Nori
      Tomographic measurements on superconducting qubit states
      Phys. Rev. B 72, 014547 (2005). [PDF][Link][arXiv]

    13. J.Q. You, X. Hu, F. Nori
      Correlation-induced suppression of decoherence in capacitively coupled Cooper-pair boxes
      Phys. Rev. B 72, 144529 (2005). [PDF][Link][arXiv]

    14. J.Q. You, F. Nori
      Superconducting circuits and quantum information
      Physics Today 58 (11), 42-47 (2005). [PDF][Link]
      Translated to Japanese in the journal Parity. [PDF]

    15. A.M. Zagoskin, S. Ashhab, J.R. Johansson, F. Nori
      Quantum two-level systems in Josephson junctions as naturally formed qubits
      Phys. Rev. Lett. 97, 077001 (2006). [PDF][Link][arXiv]

    16. X.B. Wang, J.Q. You, F. Nori
      Measurement-based quantum computation with superconducting charge qubits
      (2006). [Link][arXiv]

    17. Y.X. Liu, C.P. Sun, F. Nori
      Scalable superconducting qubit circuits using dressed states
      Phys. Rev. A 74, 052321 (2006). [PDF][Link][arXiv]

    18. H.T. Quan, Y.D. Wang, Y.X. Liu, C.P. Sun, F. Nori
      Maxwell's demon assisted thermodynamic cycle in superconducting quantum circuits
      Phys. Rev. Lett. 97, 180402 (2006). [PDF][Link][arXiv]

    19. L.F. Wei, Y.X. Liu, M.J. Storcz, F. Nori
      Macroscopic Einstein-Podolsky-Rosen pairs in superconducting circuits
      Phys. Rev. A 73, 052307 (2006). [PDF][Link][arXiv]

    20. L.F. Wei, Y.X. Liu, F. Nori
      Generation and control of Greenberger-Horne-Zeilinger entanglement in superconducting circuits
      Phys. Rev. Lett. 96, 246803 (2006). [PDF][Link][arXiv]

    21. S. Ashhab, S. Matsuo, N. Hatakenaka, F. Nori
      Generalized switchable coupling for superconducting qubits using double resonance
      Phys. Rev. B 74, 184504 (2006). [PDF][Link][arXiv]

    22. M. Grajcar, Y.X. Liu, F. Nori, A.M. Zagoskin
      Switchable resonant coupling of flux qubits
      Phys. Rev. B 74, 172505 (2006). [PDF][Link][arXiv]

    23. T. Tanamoto, Y.X. Liu, S. Fujita, X. Hu, F. Nori
      Producing cluster states in charge qubits and flux qubits
      Phys. Rev. Lett. 97, 230501 (2006). [PDF][Link][arXiv]

    24. J.Q. You, J.S. Tsai, F. Nori
      Hybridized solid-state qubit in the charge-flux regime
      Phys. Rev. B 73, 014510 (2006). [PDF][Link][arXiv]

    25. Y.X. Liu, L.F. Wei, J.S. Tsai, F. Nori
      Controllable coupling between flux qubits
      Phys. Rev. Lett. 96, 067003 (2006). [PDF][Link][arXiv]

    26. S. Matsuo, S. Ashhab, T. Fujii, F. Nori, K. Nagai, N. Hatakenaka
      Generation of Bell states and Greenberger-Horne-Zeilinger states in superconducting phase qubits
      Quantum Communication, Measurement and Computing, (no. 8), O. Hirota, J.H. Shapiro, M. Sasaki, editors
      (NICT Press, 2006). [PDF]

    27. J.Q. You, X. Hu, S. Ashhab, F. Nori
      Low-decoherence flux qubit
      Phys. Rev. B 75, 140515(R) (2007). [PDF][Link][arXiv]

    28. J.Q. You, Y.X. Liu, C.P. Sun, F. Nori
      Persistent single-photon production by tunable on-chip micromaser with a superconducting quantum circuit
      Phys. Rev. B 75, 104516 (2007). [PDF][Link][arXiv]

    29. S. Ashhab, F. Nori
      Switchable coupling for superconducting qubits using double resonance in the presence of crosstalk
      Phys. Rev. B 76, 132513 (2007). [PDF][Link][arXiv]

    30. X.L. He, J.Q. You, Y.X. Liu, L.F. Wei, F. Nori
      Switchable coupling between charge and flux qubits
      Phys. Rev. B 76, 024517 (2007). [PDF][Link][arXiv]

    31. S. Matsuo, S. Ashhab, T. Fujii, F. Nori, K. Nagai, N. Hatakenaka
      Generation of macroscopic entangled states in coupled superconducting phase qubits
      J. Phys. Soc. Jpn 76, 054802 (2007). [PDF][Link]

    32. Y.X. Liu, L.F. Wei, J.R. Johansson, J.S. Tsai, F. Nori
      Superconducting qubits can be coupled and addressed as trapped ions
      Phys. Rev. B 76, 144518 (2007). [PDF][Link][arXiv]

    33. J.Q. You, Y.X. Liu, F. Nori
      Simultaneous cooling of an artificial atom and its neighboring quantum system
      Phys. Rev. Lett. 100, 047001 (2008). [PDF][Link][arXiv]

    34. A.L. Rakhmanov, A.M. Zagoskin, S. Savel'ev, F. Nori
      Quantum metamaterials: Electromagnetic waves in a Josephson qubit line
      Phys. Rev. B 77, 144507 (2008). [PDF][Link][arXiv]
      Editors' Suggestion

    35. T. Yamamoto, M. Watanabe, J.Q. You, Y.A. Pashkin, O. Astafiev, Y. Nakamura, F. Nori, J.S. Tsai
      Spectroscopy of superconducting charge qubits coupled by a Josephson inductance
      Phys. Rev. B 77, 064505 (2008). [PDF][Link][arXiv]

    36. A.O. Sboychakov, S. Savel'ev, F. Nori
      Quantum electrodynamics and photon-assisted tunnelling in long Josephson junctions
      Phys. Rev. B 78, 134518 (2008). [PDF][Link][arXiv]

    37. A.N. Omelyanchouk, S.N. Shevchenko, A.M. Zagoskin, E. Il'ichev, F. Nori
      Pseudo-Rabi oscillations in superconducting flux qubits in the classical regime
      Phys. Rev. B 78, 054512 (2008). [PDF][Link][arXiv]

    38. L.F. Wei, J.R. Johansson, L.X. Cen, S. Ashhab, F. Nori
      Controllable coherent population transfers in superconducting qubits for quantum computing
      Phys. Rev. Lett. 100, 113601 (2008). [PDF][Link][arXiv]

    39. D.I. Tsomokos, S. Ashhab, F. Nori
      Fully-connected network of superconducting qubits in a cavity
      New Journal of Physics 10, 113020 (2008). [PDF][Link][arXiv]

    40. A.M. Zagoskin, E. Il'ichev, M.W. McCutcheon, J. Young, F. Nori
      Controlled Generation of Squeezed States of Microwave Radiation in a Superconducting Resonant Circuit
      Phys. Rev. Lett. 101, 253602 (2008). [PDF][Link][arXiv]

    41. S.N. Shevchenko, A.N. Omelyanchouk, A.M. Zagoskin, S. Savel'ev, F. Nori
      Distinguishing quantum from classical Rabi oscillations in a phase qubit
      New Journal of Physics 10, 073026 (2008). [PDF][Link][arXiv]

    42. A. Zagoskin, A.L. Rakhmanov, S. Savel'ev, F. Nori
      Quantum metamaterials: Electromagnetic waves in Josephson qubit lines
      Phys. Status Solidi B 246, 955-960 (2009). [PDF][Link][arXiv]

    43. A.N. Omelyanchouk, S. Savel'ev, A.M. Zagoskin, E. Il'ichev, F. Nori
      Noise-induced quantum coherence and persistent Rabi oscillations in a Josephson flux qubit
      Phys. Rev. B 80, 212503 (2009). [PDF][Link][arXiv]

    44. J.R. Johansson, G. Johansson, C.M. Wilson, F. Nori
      Dynamical Casimir effect in a superconducting coplanar waveguide
      Phys. Rev. Lett. 103, 147003 (2009). [PDF][Link][arXiv]
      Featured in Physics, Editors' Suggestion

    45. S. Ashhab, J.R. Johansson, A.M. Zagoskin, F. Nori
      Single-artificial-atom lasing using a voltage-biased superconducting charge qubit
      New Journal of Physics 11, 023030 (2009). [PDF][Link][arXiv]

    46. J. Zhang, Y.X. Liu, C.W. Li, T.J. Tarn, F. Nori
      Generating stationary entangled states in superconducting qubits
      Phys. Rev. A 79, 052308 (2009). [PDF][Link][arXiv]

    47. H.T. Ng, F. Nori
      Quantum phase measurement and Gauss sum factorization of large integers in a superconducting circuit
      Phys. Rev. A 82, 042317 (2010). [PDF][Link][arXiv]

    48. C.P Yang, Y.X. Liu, F. Nori
      Phase gate of one qubit simultaneously controlling n qubits in a cavity or coupled to a resonator
      Phys. Rev. A 81, 062323 (2010). [PDF][Link][arXiv]

    49. H. Ian, Y.X. Liu, F. Nori
      Tunable electromagnetically induced transparency and absorption with dressed superconducting qubits
      Phys. Rev. A 81, 063823 (2010). [PDF][Link][arXiv]

    50. J.Q. You, X.F. Shi, X. Hu, F. Nori
      Quantum emulation of a spin system with topologically protected ground states using superconducting quantum circuits
      Phys. Rev. B 81, 014505 (2010). [PDF][Link][arXiv]

    51. L.F. Wei, K. Maruyama, X.B. Wang, J.Q. You, F. Nori
      Testing quantum contextuality with macroscopic superconducting circuits
      Phys. Rev. B 81, 174513 (2010). [PDF][Link][arXiv]

    52. J.R. Johansson, G. Johansson, C.M. Wilson, F. Nori
      Dynamical Casimir effect in superconducting microwave circuits
      Phys. Rev. A 82, 052509 (2010). [PDF][Link][arXiv]

    53. D.I. Tsomokos, S. Ashhab, F. Nori
      Using superconducting qubit circuits to engineer exotic lattice systems
      Phys. Rev. A 82, 052311 (2010). [PDF][Link][arXiv]

    54. C.P. Yang, S.B. Zheng, F. Nori
      Multiqubit tunable phase gate of one qubit simultaneously controlling n qubits in a cavity
      Phys. Rev. A 82, 062326 (2010). [PDF][Link][arXiv]

    55. J.Q. You, F. Nori
      Atomic physics and quantum optics using superconducting circuits
      Nature 474, 589 (2011). [PDF][Link][arXiv]

    56. J.Q. You, Z.D. Wang, W. Zhang, F. Nori
      Manipulating and probing Majorana fermions using superconducting circuits
      (2011). [Link][arXiv]

    57. C.M. Wilson, G. Johansson, A. Pourkabirian, J.R. Johansson, T. Duty, F. Nori, P. Delsing
      Observation of the dynamical Casimir effect in a superconducting circuit
      Nature 479, 376-379 (2011). [PDF][Link][arXiv]
      The supplementary material is here [PDF][Link]
      Featured in a Nature "News & Views" [PDF][Link]
      Physics World top five Physics breakthroughs of the year 2011 [PDF][Link]
      According to Nature, coverage of our work on Nature News was "The most read news story of 2011". [PDF][Link]

    58. Y. Kubo, A.O. Sboychakov, F. Nori, Y. Takahide, S. Ueda, I. Tanaka, A.T.M.N. Islam, Y. Takano
      Macroscopic quantum tunneling and phase diffusion in a La_2-xSr_xCuO_4 intrinsic Josephson junction stack
      Phys. Rev. B 86, 144532 (2012). [PDF][Link][arXiv]

    59. P.D. Nation, J.R. Johansson, M.P. Blencowe, F. Nori
      Stimulating uncertainty: Amplifying the quantum vacuum with superconducting circuits
      Rev. Mod. Phys. 84, 1-24 (2012). [PDF][Link][arXiv]

    60. X. Hu, Y.X. Liu, F. Nori
      Strong coupling of a spin qubit to a superconducting stripline cavity
      Phys. Rev. B 86, 035314 (2012). [PDF][Link][arXiv]

    61. X.Y. Lu, S. Ashhab, W. Cui, R. Wu, F. Nori
      Two-qubit gate operations in superconducting circuits with strong coupling and weak anharmonicity
      New Journal of Physics 14, 073041 (2012). [PDF][Link][arXiv]

    62. H. Ian, Y.X. Liu, F. Nori
      Excitation spectrum for an inhomogeneously dipole-field-coupled superconducting qubit chain
      Phys. Rev. A 85, 053833 (2012). [PDF][Link][arXiv]

    63. Y.O. Averkov, V.M. Yakovenko, V.A. Yampol'skii, F. Nori
      Oblique surface Josephson plasma waves in layered superconductors
      Phys. Rev. B 87, 054505 (2013). [PDF][Link][arXiv]

    64. Z.L. Xiang, X.Y. Lu, T.F. Li, J.Q. You, F. Nori
      Hybrid quantum circuit consisting of a superconducting flux qubit coupled to a spin ensemble and a transmission-line resonator
      Phys. Rev. B 87, 144516 (2013). [PDF][Link][arXiv]

    65. Z.L. Xiang, S. Ashhab, J.Q. You, F. Nori
      Hybrid quantum circuits: Superconducting circuits interacting with other quantum systems
      Rev. Mod. Phys. 85, 623 (2013). [PDF][Link][arXiv]

    66. X.Y. Lu, Z.L Xiang, W. Cui, J.Q. You, F. Nori
      Quantum memory using a hybrid circuit with flux qubits and NV centers
      Phys. Rev. A 88, 012329 (2013). [PDF][Link][arXiv]

    67. T.N. Rokhmanova, S.S. Apostolov, Z.A. Maizelis, V.A. Yampol'skii, F. Nori
      Self-induced terahertz-wave transmissivity of waveguides with finite-length layered superconductors
      Phys. Rev. B 88, 014506 (2013). [PDF][Link][arXiv]

    68. Y. Ota, K. Kobayashi, M. Machida, T. Koyama, F. Nori
      Full Numerical Simulations of Dynamical Response in Superconducting Single-Photon Detectors
      IEEE Transactions on Applied Superconductivity 23, 2201105 (2013). [PDF][Link]

    69. Z.P. Liu, H. Wang, J. Zhang, Y.X. Liu, R.B. Wu, F. Nori
      Feedback-induced nonlinearity and superconducting on-chip quantum optics
      Phys. Rev. A 88, 063851 (2013). [PDF][Link][arXiv]

    70. H. Asai, Y. Ota, S. Kawabata, M. Machida, F. Nori
      Theory of macroscopic quantum tunneling with Josephson-Leggett collective excitations in multiband superconducting Josephson junctions
      Phys. Rev. B 89, 224507 (2014). [PDF][Link][arXiv]

    71. A.M. Satanin, M.V. Denisenko, A.I. Gelman, F. Nori
      Amplitude and phase effects in Josephson qubits driven by a biharmonic electromagnetic field
      Phys. Rev. B 90, 104516 (2014). [PDF][Link][arXiv]

    72. Y.X. Liu, H.C. Sun, Z.H. Peng, A. Miranowicz, J.S. Tsai, F. Nori
      Controllable microwave three-wave mixing via a single three-level superconducting quantum circuit
      Scientific Reports 4, 7289 (2014). [PDF][Link][arXiv]

    73. J.Q. You, Z.D. Wang, W. Zhang, F. Nori
      Encoding a qubit with Majorana modes in superconducting circuits
      Scientific Reports 4, 5535 (2014). [PDF][Link][arXiv]

    74. H.C. Sun, Y.X. Liu, H. Ian, J.Q. You, E. Il'ichev, F. Nori
      Electromagnetically induced transparency and Autler-Townes splitting in superconducting flux quantum circuits
      Phys. Rev. A 89, 063822 (2014). [PDF][Link][arXiv]

    75. P. Zhang, Z.L. Xiang, F. Nori
      Spin-orbit qubit on a multiferroic insulator in a superconducting resonator
      Phys. Rev. B 89, 115417 (2014). [PDF][Link][arXiv]

    76. Y. Zhang, L. Yu, J.Q. Liang, G. Chen, S. Jia, F. Nori
      Quantum phases in circuit QED with a superconducting qubit array
      Scientific Reports 4, 4083 (2014). [PDF][Link][arXiv]

    77. J.R. Johansson, G. Johansson, F. Nori
      Optomechanical-like coupling between superconducting resonators
      Phys. Rev. A 90, 053833 (2014). [PDF][Link][arXiv]

    78. D. Dong, C. Chen, B. Qi, I.R. Petersen, F. Nori
      Robust manipulation of superconducting qubits in the presence of fluctuations
      Scientific Reports 5, 7873 (2015). [PDF][Link][arXiv]

    79. R.S. Akzyanov, A.L. Rakhmanov, A.V. Rozhkov, F. Nori
      Majorana fermions at the edge of superconducting islands
      Phys. Rev. B 92, 075432 (2015). [PDF][Link][arXiv]
    80. Y.J. Zhao, Y.L. Liu, Y.X. Liu, F. Nori
      Generating nonclassical photon states via longitudinal couplings between superconducting qubits and microwave fields
      Phys. Rev. A 91, 053820 (2015). [PDF][Link][arXiv]
    81. C.P. Yang, Q.P. Su, S.B. Zheng, F. Nori
      Entangling superconducting qubits in a multi-cavity system
      New Journal of Physics 18, 013025 (2016). [PDF][Link][arXiv]
    82. X. Wang, A. Miranowicz, H.R. Li, F. Nori
      Multiple-output microwave single-photon source using superconducting circuits with longitudinal and transverse couplings
      Phys. Rev. A 94, 053858 (2016). [PDF][Link][arXiv]

    83. N. Lambert, Y. Matsuzaki, K. Kakuyanagi, N. Ishida, S. Saito, F. Nori
      Superradiance with an ensemble of superconducting flux qubits
      Phys. Rev. B 94, 224510 (2016). [PDF][Link][arXiv]

    84. X. Wang, A. Miranowicz, H.R. Li, F. Nori
      Hybrid quantum device with a carbon nanotube and a flux qubit for dissipative quantum engineering
      Phys. Rev. B 95, 205415 (2017). [PDF][Link][arXiv]

    85. X. Gu, A.F. Kockum, A. Miranowicz, Y.X. Liu, F. Nori
      Microwave photonics with superconducting quantum circuits
      Physics Reports 718-719, pp. 1-102 (2017). [PDF][Link][arXiv]

    86. P.Y. Wen, A.F. Kockum, H. Ian, J.C. Chen, F. Nori, I.C. Hoi
      Reflective Amplification without Population Inversion from a Strongly Driven Superconducting Qubit
      Phys. Rev. Lett. 120, 063603 (2018). [PDF][Link][arXiv][Suppl. Info.]

    87. R. Stassi, F. Nori
      Long-lasting quantum memories: Extending the coherence time of superconducting artificial atoms in the ultrastrong-coupling regime
      Phys. Rev. A 97, 033823 (2018). [PDF][Link][arXiv]

    88. A.F. Kockum, G. Johansson, F. Nori
      Decoherence-Free Interaction between Giant Atoms in Waveguide Quantum Electrodynamics
      Phys. Rev. Lett. 120, 140404 (2018). [PDF][Link][arXiv][Suppl. Info.]

    89. A. Settineri, V. Macrí, A. Ridolfo, O. Di Stefano, A.F. Kockum, F. Nori, S. Savasta
      Dissipation and thermal noise in hybrid quantum systems in the ultrastrong-coupling regime
      Phys. Rev. A 98, 053834 (2018). [PDF][Link][arXiv]

    90. O. Di Stefano, A.F. Kockum, A. Ridolfo, S. Savasta, F. Nori
      Photodetection probability in quantum systems with arbitrarily strong light-matter interaction
      Scientific Reports 8, 17825 (2018). [PDF][Link_1][Link_2][arXiv]

    91. T. Liu, J.J. He, F. Nori
      Majorana corner states in a two-dimensional magnetic topological insulator on a high-temperature superconductor
      Phys. Rev. B 98, 245413 (2018). [PDF][Link][arXiv]

    92. V. Macri, F. Nori, A.F. Kockum
      Simple preparation of Bell and Greenberger-Horne-Zeilinger states using ultrastrong-coupling circuit QED
      Phys. Rev. A 98, 062327 (2018). [PDF][Link][arXiv]

    93. A.F. Kockum, A. Miranowicz, S. De Liberato, S. Savasta, F. Nori
      Ultrastrong coupling between light and matter
      Nature Reviews Physics 1, pp. 19–40 (2019). [PDF][Link][arXiv]
      This is the only review (plus three technical reviews) of the first issue of this journal.

    94. Z. Yan, Y.R. Zhang, M. Gong, Y. Wu, Y. Zheng, S. Li, C. Wang, F. Liang, J. Lin, Y. Xu, C. Guo, L. Sun, C.Z. Peng, K. Xia, H. Deng, H. Rong, J.Q. You, F. Nori, H. Fan, X. Zhu, J.W. Pan
      Strongly correlated quantum walks with a 12-qubit superconducting processor
      Science 364, pp. 753-756 (2019). [PDF][Link][Suppl. Info.][Suppl. Info. Movie]

    95. A.F. Kockum, F. Nori
      Quantum Bits with Josephson Junctions
      Book Chapter in “Fundamentals and Frontiers of the Josephson Effect”, F. Tafuri (ed.)
      Springer Series in Materials Science 286, Chapter 17, pp. 703-741 (2019). [PDF][Link][arXiv]

    96. P.Y. Wen, K.T. Lin, A.F. Kockum, B. Suri, H. Ian, J.C. Chen, S.Y. Mao, C.C. Chiu, P. Delsing, F. Nori, G.D. Lin, I.C. Hoi
      Large Collective Lamb Shift of Two Distant Superconducting Artificial Atoms
      Phys. Rev. Lett. 123, 233602 (2019). [PDF][Link][arXiv][Suppl. Info.]

    97. X. Wang, A. Miranowicz, F. Nori
      Ideal Quantum Nondemolition Readout of a Flux Qubit without Purcell Limitations
      Phys. Rev. Applied 12, 064037 (2019). [PDF][Link][arXiv]

    98. K. Xu, Z.H. Sun, W. Liu, Y.R. Zhang, H. Li, H. Dong, W. Ren, P. Zhang, F. Nori, D. Zheng, H. Fan, H. Wang
      Probing dynamical phase transitions with a superconducting quantum simulator
      Science Advances 6, eaba4935 (2020). [PDF][Link][arXiv][Suppl. Info.]

    99. B. Kannan, M.J. Ruckriegel, D.L. Campbell, A.F. Kockum, J. Braumuller, D.K. Kim, M. Kjaergaard, P. Krantz, A. Melville, B.M. Niedzielski, A. Vepsalainen, R. Winik, J.L. Yoder, F. Nori, T.P. Orlando, S. Gustavsson, W.D. Oliver
      Waveguide quantum electrodynamics with superconducting artificial giant atoms
      Nature 583, pp. 775–779 (2020). [PDF][Link_1][Link_2][arXiv]

    100. R. Stassi, M. Cirio, F. Nori
      Scalable quantum computer with superconducting circuits in the ultrastrong coupling regime
      npj Quantum Information 6, 67 (2020). [PDF][Link_1][Link_2][arXiv]

    101. P.Y. Wen, O.V. Ivakhnenko, M.A. Nakonechnyi, B. Suri, J.J. Lin, W.J. Lin, J.C. Chen, S.N. Shevchenko, F. Nori, I.C. Hoi
      Landau-Zener-Stückelberg-Majorana interferometry of a superconducting qubit in front of a mirror
      Phys. Rev. B 102, 075448 (2020). [PDF][Link][arXiv]

    102. H.Y. Ku, N. Lambert, F.J. Chan, C. Emary, Y.N. Chen, F. Nori
      Experimental test of non-macrorealistic cat states in the cloud
      npj Quantum Information 6, 98 (2020). [PDF][Link_1][Link_2][arXiv]

    103. X. Wang, T. Liu, A.F. Kockum, H.R. Li, F. Nori
      Tunable Chiral Bound States with Giant Atoms
      Phys. Rev. Lett. 126, 043602 (2021). [PDF][Link][arXiv][Suppl. Info.]

    104. W. Salmon, C. Gustin, A. Settineri, O. Di Stefano, D. Zueco, S. Savasta, F. Nori, S. Hughes
      Gauge-independent emission spectra and quantum correlations in the ultrastrong coupling regime of open system cavity-QED
      Nanophotonics 11, pp. 1573-1590 (2022). [PDF][Link][arXiv][Erratum]

    105. K. Xu, Y.R. Zhang, Z.H. Sun, H. Li, P. Song, Z. Xiang, K. Huang, H. Li, Y.H. Shi, C.T. Chen, X. Song, D. Zheng, F. Nori, H. Wang, H. Fan
      Metrological Characterization of Non-Gaussian Entangled States of Superconducting Qubits
      Phys. Rev. Lett. 128, 150501 (2022). [PDF][Link][arXiv][Suppl. Info.]

    106. Z.P. Yang, H.Y. Ku, A. Baishya, Y.R. Zhang, A.F. Kockum, Y.N. Chen, F.L. Li, J.S. Tsai, F. Nori
      Deterministic one-way logic gates on a cloud quantum computer
      Phys. Rev. A 105, 042610 (2022). [PDF][Link][arXiv]

    107. R.K. Pan, L. Tang, K. Xia, F. Nori
      Dynamic Nonreciprocity with a Kerr Nonlinear Resonator
      Chinese Physics Letters 39, 124201 (2022). [PDF][Link][arXiv]
      Featured in Physics World [Link, PDF]

    108. Y.H. Chen, A. Miranowicz, X. Chen, Y. Xia, F. Nori
      Enhanced-Fidelity Ultrafast Geometric Quantum Computation Using Strong Classical Drives
      Phys. Rev. Applied 18, 064059 (2022). [PDF][Link][arXiv]

    109. S. Terradas-Brianso, C.A. Gonzalez-Gutierrez, F. Nori, L. Martín-Moreno, D. Zueco
      Ultrastrong waveguide QED with giant atoms
      Phys. Rev. A 106, 063717 (2022). [PDF][Link][arXiv]

    110. V. Macri, A. Mercurio, F. Nori, S. Savasta, C.S. Munoz
      Spontaneous Scattering of Raman Photons from Cavity-QED Systems in the Ultrastrong Coupling Regime
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