[1] Ferdinand S,Hartmut H,Mark R,et al.Realization of the Cirac-Zoller Controlled-NOT Quantum Gate[J].Nature (London),2003,422: 408-411.DOI:10.1038/nature01494.

[2] Yamamoto T,Pashkin Y A,Astafiev O,et al.Demonstration of Conditional Gate Operation using Superconducting Charge Qubits[J].Nature (London),2003,425:941-944.DOI:10.1038/nature02015.

[3] Knill E,Laflamme R,Milburn G J.A Scheme for Efficient Quantum Computation with Linear Optics[J].Nature (London),2001,409:46-52.DOI:10.1038/35051009.

[4] Liu Apeng,Cheng Liuyong,Guo Qi,et al.Universal Quantum Gates for Hybrid System Assisted by Atomic Ensembles Embedded in Double-sided Optical Cavities[J].Scientific Reports,2017,7:43675.DOI: 10.1038/srep43675.

[5] 许丽, 刘阿鹏.金刚石氮空位色心体系的量子纠缠态制备[J].量子光学学报, 2017,23:18-23.DOI:10.3788/JQO20172301.000.

[6] Auffeves-Garnier A,Simon C,G′erard J M,et al.Giant Optical Nonlinearity Induced by a Single Two-level System Interacting with a Cavity in the Purcell Regime[J].Physical Review A,2007,75(05):053823.DOI:10.1103／PhysRevA.75.053823.

[7] O’Shea D,Junge C,Volz J,et al.Fiber-Optical Switch Controlled by a Single Atom[J].Physical Review Letters,2013,111(19):193601.DOI:10.1103／PhysRevLett.111.193601.

[8] Waks E,Vuckovic J.Dispersive Properties and Large Kerr Nonlinearities using Dipole-induced Transparency in a Single-sided Cavity[J].Physical Review A,2006,73(4):168-168.DOI: 10.1103／PhysRevA.73.041803.

[9] Thompson J,Tiecke T,Peyronel T,et al.Nanophotonic Quantum Phase Switch with a Single Atom[J].Nature,2014,508(7495):241.DOI: 10.1038／nature13188.

[10] Liu Apeng,Cheng Liuyong,Zhang Shou,et al.Deterministic Controlled-phase Gate and SWAP Gate with Dipole-induced Transparency in the Weak-coupling Regime[J].Optics Communications,2016,379:19-24.DOI:org/10.1016/j.optcom.2016.05.054.

[11] Deng Fuguo,Ren Baocang,Li Xihan.Quantum Hyperentanglement and Its Applications in Quantum Information Processing[J].Science Bulletin,2017,62: 46-68.DOI:10.1016/j.scib.2016.11.007.

[12] Li Tao,Long Guilu.Hyperparallel Optical Quantum Computation Assisted by Atomic Ensembles Embedded in Double-sided Optical Cavities[J].Physical Review A,2016,94:022343.DOI: 10.1103/PhysRevA.94.022343.

[13] 刘阿鹏.基于金刚石氮-空位系统的量子逻辑门及其应用[D].延吉:延边大学,2015,7-10.

[14] Togan E,Chu Y,Trifonov A S,et al.Quantum Entanglement Between an Optical Photon and a Solid-state Spin Qubit[J].Nature(London),2010,466:730.DOI: 10.1038／nature09256.

[15] Wen J J,Yeon K H,Wang H F, et al.Scheme for Implementing the Optimal Quantum Cloning Via Long-range Off-resonant Raman Coupling[J].Physical Society,2013,63(9):1696.DOI:10.3938／jkps.63.1696.

[16] 曾谨言.量子力学:第1卷[M].北京:科学出版社,2001: 11-20.

[17] Ren B C,Du F F,Deng F G.Hyperentanglement Concentration for Two-photon Four-qubit Systems with Linear Optics[J].Physical Review A,2013,88:012302.DOI:10.1103／PhysRevA.88.012302.

[18] Tan H T,Zhang W M,Li G X.Entangling Two Distant Nanocavities Via a Waveguide[J].Physical Review A,2011,83(6):062310.DOI: 10.1103／PhysRevA.83.062310.

[19] Fan H,Imai H,Matsumoto K, et al.Phase-covariant Quantum Cloning of Qudits[J].Physical Review A,2003,67(2):022317.DOI:10.1103／PhysRevA.67.022317.

[20] Lamas-Linares A,Simon C,Howell J C,et al.Experimental Quantum Cloning of Single Photons[J].Science,2012,296(5568):712.DOI:10.1126／science.1068972.

[21] Wei Hairui,Deng Fuguo.Compact Quantum Gates on Electron-spin Qubits Assisted by Diamond Nitrogen-vacancy Centers Inside Cavities[J].Physical Review A,2013,88:042323.DOI:10.1103／PhysRevA.88.042323.

[22] Ren Bao-cang,Deng Fu-guo.Hyper-parallel Photonic Quantum Computation With Coupled Quantum Dots[J].Scientific Reports,2014,4:4623.DOI:10.1038／srep04623.