[1] Nielsen M A, Chuang I L. Quantum Computation and Quantum Information[M]. Cambridge: Cambridge University Press, 2000.

[2] Cong Shuang. What to do Quantum Systems Control [C]. 15th CCSSTA (第十五届中国系统仿真技术及其应用学术会议), 2014(in Chinese).

[3] Mirrahimi M, Handel R V. Stabilizing feedback controls for quantum systems[J]. Siam Journal on Control and Optimization, 2007, 4(2): 445-467.

[4] Altafini C, Ticozzi F. Modeling and control of quantum systems: An introduction[J]. IEEE Transactions on Automatic Control, 2012, 57(8): 1898-1917.

[5] Goren G, Gershon K, Lidar D A. Optimal dynamical decoherence control of a qubit[J]. Phys. Rev. Lett., 2008, 101: 010403.

[6] Branczvk A M, Mendonca P E M F , Gilchrist A, et al. Quantum control of a single qubit[J]. Phys. Rev. A., 2007, 75(1): 012329.

[7] Huang G M, Tarn T J, Clark J W. On the controllability of quantum mechanical systems[J]. Journal of Mathematical Physics, 1983, 24(11): 2608-2618.

[8] Averin D V. Generation of cluster states with Josephson charge qubits[J]. Solid State Commun., 1998, 105: 659.

[9] Hou S C, Wang L C, Yi X X. Realization of quantum gates by Lyapunov control[J]. Physics Letters A, 2014, 378(9): 699-704.

[10] Liu Jianxiu. State Tracking and Operator Preparation in Quantum Systems(量子系统的状态跟踪控制及算符制备)[D]. Hefei: Doctorial Dissertation of University of Science and Technology of China, 2014 (in Chinese).

[11] Mao Guangfeng, Yu Yang. Superconducting quantum bits based on Josephson devices[J]. Progress in Physics (物理学进展), 2007, 2(1): 35-42 (in Chinese).

[12] Gea-Banacloche Julio. Qubit-qubit interaction in quantum computers[J]. Phys. Rev. A, 1998, 57(1): R1-R4.

[13] Kuang Sen. Studies of Quantum System Control Methods Based on Lyapunov and Optimal Control Theory (基于Lyapunov和最优控制理论的量子系统控制方法的研究)[D]. Hefei: Doctorial Dissertation of University of Science and Technology of China, 2007 (in Chinese).

[14] Lee J W, Averin D V , Benenti G, et al. Model of a deterministic detector and dynamical decoherence[J]. Phys. Rev. A, 2005, 72(1): 012310.

[15] Nakamura Y, Pashkin Yu A, Tsai J S. Coherent control of macroscopic quantum states in a single-cooper-pair box[J]. Nature, 1999, 398: 786-788.

[16] Yamamoto T, Pashkin Yu A, et al. Demonstration of conditional gate operation using superconducting charge qubits[J]. Nature, 2003, 425(6961): 941-944.

[17] Nakamura Y, Chen C D, Tsai J S. Supertroscopy of engery-level splitting between two macroscopic quantum states of charge coherently superposed by Josephson coupling[J]. Phys. Rev. Lett., 1997, 79: 2328.

[18] Vion D, Aassime A, et al. Manipulating the quantum state of an electrical circuit.[J]. Science, 2002, 29(5569): 886-889.

[19] Makhlin Yuriy, Shon Gerd, et al. Quantum-state engineering with Josephson junction devices[J]. Rev. Mod. Phys., 2001, 73: 357.

[20] Yu Yang. Macroscopic quantum phenomena and quantum computation in superconducting Josephson devices[J]. Physics (物理), 2005, 8: 578-582 (in Chinese).

[21] Makhlin Yuriy. Quantum-state engineering with Josephson-junction devices[J]. Rev. Mod. Phys., 2001, 73: 357.

[22] Bouchiat V, Vion D, Joyez P, et al. Quantum coherence with a single Cooper pair[J]. Physica Scripta, 2006, 1998(T76): 165-170.

[23] Nakamura Y, Pashkin Yu A, Tsai J S. Coherent control of macroscopic quantum states in a single-Cooper-pair box[J]. Nature, 1999, 398: 786-788.

[24] Cong Shuang. Geometric algebra and its applications in quantum system control[J]. China Science Paper (中国科技论文), 2012, 7(10): 804-808 (in Chinese).

[25] Nakamura Y, Pashkin Yu A, Yamamoto T, et al. Charge echo in a Cooper-pair box[J]. Phys. Rev. Lett., 2002, 88: 047901.