Quantum behavior of a flux qubit coupled to a resonator

被引:0
|
作者
Omelyanchouk, A.N. [1 ]
Shevchenko, S.N. [1 ,2 ]
Greenberg, Ya.S. [2 ,3 ]
Astafiev, O. [4 ]
Il'ichev, E. [2 ]
机构
[1] B. Verkin Institute for Low Temperature Physics and Engineering, National Academy of Sciences of Ukraine, 47 Lenin Ave., 61103 Kharkov, Ukraine
[2] Institute of Photonic Technology, P.O. Box 100239, D-07702 Jena, Germany
[3] Novosibirsk State Technical University, 20 Karl Marx Ave., Novosibirsk, 630092, Russia
[4] NEC Nano Electronics Research Laboratories, Tsukuba, Ibaraki, 305-8501, Japan
来源
Fizika Nizkikh Temperatur (Kharkov) | 2010年 / 36卷 / 10-11期
关键词
Quantum computers - Superconducting resonators;
D O I
暂无
中图分类号
学科分类号
摘要
The detailed theory for the system of a superconducting qubit coupled to the transmission line resonator is presented. We describe the system by solving analytically and numerically the master equation for the density matrix, which includes dissipative Lindblad term. We calculate the transmission coefficient, which provides the way to probe the dressed states of the qubit. The theoretical results are related to the experiment with the intermediate coupling between the qubit and the resonator, when the coupling energy is of the same order as the qubit relaxation rate. © A.N. Omelyanchouk, S.N. Shevchenko, Ya.S. Greenberg, O. Astafiev, and E. Il'ichev, 2010.
引用
收藏
页码:1117 / 1127
相关论文
共 50 条
  • [1] Quantum behavior of a flux qubit coupled to a resonator
    Omelyanchouk, A. N.
    Shevchenko, S. N.
    Greenberg, Ya. S.
    Astafiev, O.
    Il'ichev, E.
    LOW TEMPERATURE PHYSICS, 2010, 36 (10-11) : 893 - 901
  • [2] Superconducting flux qubit capacitively coupled to an LC resonator
    Yamamoto, T.
    Inomata, K.
    Koshino, K.
    Billangeon, P-M
    Nakamura, Y.
    Tsai, J. S.
    NEW JOURNAL OF PHYSICS, 2014, 16
  • [3] Numerical simulations of a flux qubit coupled to a high quality resonator
    Lindstroem, T.
    Webster, C. H.
    Healey, J. E.
    Colclough, M. S.
    Muirhead, C. M.
    Tzalenchuk, A. Ya.
    8TH EUROPEAN CONFERENCE ON APPLIED SUPERCONDUCTIVITY (EUCAS'07), 2008, 97
  • [4] Resonator-assisted quantum bath engineering of a flux qubit
    Zhang, Xian-Peng
    Shen, Li-Tuo
    Yin, Zhang-Qi
    Wu, Huai-Zhi
    Yang, Zhen-Biao
    PHYSICAL REVIEW A, 2015, 91 (01):
  • [5] Quantum Decoherence of Charge Qubit Coupled to Nonlinear Nanomechanical Resonator
    Chen Cheng
    Gao Yi-Bo
    COMMUNICATIONS IN THEORETICAL PHYSICS, 2013, 60 (05) : 531 - 534
  • [6] Quantum Decoherence of Charge Qubit Coupled to Nonlinear Nanomechanical Resonator
    陈诚
    高一波
    Communications in Theoretical Physics, 2013, 60 (11) : 531 - 534
  • [7] Hybrid quantum circuit consisting of a superconducting flux qubit coupled to a spin ensemble and a transmission-line resonator
    Xiang, Ze-Liang
    Lu, Xin-You
    Li, Tie-Fu
    You, J. Q.
    Nori, Franco
    PHYSICAL REVIEW B, 2013, 87 (14):
  • [8] Quantum coherence induced by a flux qubit coupled by a resonator coherent field through a two-photon interaction
    Mohamed, A-b A.
    Hessian, H. A.
    Al-Duais, F. S.
    Eleuch, H.
    PHYSICA SCRIPTA, 2021, 96 (12)
  • [9] Spin-Bath Dynamics in a Quantum Resonator-Qubit System: Effect of a Mechanical Resonator Coupled to a Central Qubit
    Dehghani, A.
    Mojaveri, B.
    Vaez, M.
    INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS, 2020, 59 (10) : 3107 - 3123
  • [10] Spin-Bath Dynamics in a Quantum Resonator-Qubit System: Effect of a Mechanical Resonator Coupled to a Central Qubit
    A. Dehghani
    B. Mojaveri
    M. Vaez
    International Journal of Theoretical Physics, 2020, 59 : 3107 - 3123
12345