Dynamics of interaction between single photon and cavity-quantum dot system

Peng SHI; Jian-jian LI; Li-bo CHEN; Yong-jian GU

doi:10.3969/j.issn.1007-5461. 2012.02.006

[1] Nielsene M A, Chuang I L. Quantum Computation and Quantum Information ［M］. Cambridge: Cambridge University Press, 2000: 47-54.

[3] Divincenzo D P. The physical implementation of quantum computation ［J］. Fortschr. Phys., 2000, 48(9-11): 771-783.

[4] Cirac J I, Zoller P, Kimble H J, et al. Quantum state transfer and entanglement distribution among distant nodes in a quantum network ［J］. Phys. Rev. Lett., 1997, 78(16): 3221-3224.

[6] Yao W, Liu R B, Sham L J. Theory of control of the spin-photon interface for quantum networks ［J］. Phys. Rev. Lett., 2005, 95(3): 030504-030506.

[7] Yao W, Liu R B, Sham L J. Theory of control of the dynamics of the interface between stationary and flying qubits ［J］. J. Opt. B, 2005, 7(10): S318-S325.

[8] Scully M O, Zubairy M S. Quantum Optics ［M］. Cambridge: Cambridge University Press, 1997: 10-26.

[9] Liu R B, Yao W, Sham L J. Coherent control of cavity quantum electrodynamics for quantum nondemolition measurements and ultrafast cooling ［J］. Phys. Rev. B, 2005, 72(8): 081306-081309.

[10] Reithmaier J P, Sek G, Loffler A, et al. Strong coupling in a single quantum dot semiconductor microcavity system ［J］. Nature, 2004, 432: 197-200.

[11] Yoshie T, Scherer A, Hendrickson J, et al. Vacuum Rabi splitting with a single quantum dot in a photonic crystal nanocavity ［J］. Nature, 2004, 432: 200-203.