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Xin Tong, Chuan Wang, Cong Cao, Ling-yan He, Ru Zhang (2014)
A hybrid-system approach for W state and cluster state generationOptics Communications, 310
Liu-Yong Cheng, Hong‐Fu Wang, Shou Zhang (2013)
Simple schemes for universal quantum gates with nitrogen-vacancy centers in diamondJournal of The Optical Society of America B-optical Physics, 30
M. Mccutcheon, M. Lončar (2008)
Design of a silicon nitride photonic crystal nanocavity with a Quality factor of one million for coupling to a diamond nanocrystal.Optics express, 16 23
L. Duan, H. Kimble (2003)
Scalable photonic quantum computation through cavity-assisted interactions.Physical review letters, 92 12
Hai‐Rui Wei, Fuguo Deng (2013)
Compact quantum gates on electron-spin qubits assisted by diamond nitrogen-vacancy centers inside cavitiesPhysical Review A, 88
Wanli Yang, Zhenyu Xu, M. Feng, Jiangfeng Du (2010)
Entanglement of separate nitrogen-vacancy centers coupled to a whispering-gallery mode cavityNew Journal of Physics, 12
Chuan Wang, Tie-jun Wang, Yong Zhang, Rongzhen Jiao, Guang-Sheng Jin (2014)
Concentration of entangled nitrogen-vacancy centers in decoherence free subspace.Optics express, 22 2
M Hijlkema, B Weber, HP Specht, SC Webster, A Kuhn, G Rempe (2007)
A single-photon server with just one atomNat. Phys., 3
Qiong Chen, Wanli Yang, M. Feng, Jiangfeng Du (2011)
Entangling separate nitrogen-vacancy centers in a scalable fashion via coupling to microtoroidal resonatorsPhysical Review A, 83
Xun-Li Feng, L. Kwek, C. Oh (2005)
Electronic entanglement purification scheme enhanced by charge detectionsPhysical Review A, 71
(2009)
Quantum-information processing with a single photon by an input-output process with respect to low-Q cavities
Peng-Bo Li, Shaoyan Gao, Hongrong Li, Shengli Ma, Fuli Li (2011)
Dissipative preparation of entangled states between two spatially separated nitrogen-vacancy centersPhysical Review A, 85
Ling-yan He, Cong Cao, Xin Tong, Chuan Wang (2014)
Quantum Controlled-Not Gate Operation and Complete Bell-State Analysis Using Hybrid Quantum CircuitsInternational Journal of Theoretical Physics, 53
P. Neumann, R. Kolesov, B. Naydenov, J. Beck, F. Rempp, M. Steiner, V. Jacques, G. Balasubramanian, M. Markham, D. Twitchen, S. Pezzagna, J. Meijer, J. Twamley, F. Jelezko, J. Wrachtrup (2010)
Quantum register based on coupled electron spins in a room-temperature solid.Nature Physics, 6
F. Jelezko, T. Gaebel, I. Popa, M. Domhan, A. Gruber, J. Wrachtrup (2004)
Observation of coherent oscillation of a single nuclear spin and realization of a two-qubit conditional quantum gate.Physical review letters, 93 13
Liang Jiang, J. Hodges, J. Maze, P. Maurer, Jacob Taylor, D. Cory, P. Hemmer, R. Walsworth, A. Yacoby, A. Zibrov, M. Lukin (2009)
Repetitive Readout of a Single Electronic Spin via Quantum Logic with Nuclear Spin AncillaeScience, 326
S. Bose, V. Vedral, P. Knight (1998)
PURIFICATION VIA ENTANGLEMENT SWAPPING AND CONSERVED ENTANGLEMENTPhysical Review A, 60
D. Englund, B. Shields, K. Rivoire, F. Hatami, J. Vučković, Hongkun Park, M. Lukin (2010)
Deterministic coupling of a single nitrogen vacancy center to a photonic crystal cavity.Nano letters, 10 10
J. Wolters, A. Schell, G. Kewes, N. Nusse, M. Schoengen, H. Doscher, T. Hannappel, Bernd ohel, M. Barth, O. Benson (2010)
Enhancement of the zero phonon line emission from a single nitrogen vacancy center in a nanodiamond via coupling to a photonic crystal cavityApplied Physics Letters, 97
T. Gaebel, M. Domhan, I. Popa, C. Wittmann, P. Neumann, F. Jelezko, J. Rabeau, N. Stavrias, A. Greentree, S. Prawer, J. Meijer, J. Twamley, P. Hemmer, J. Wrachtrup (2006)
Room-temperature coherent coupling of single spins in diamondNature Physics, 2
R. Hanson, O. Gywat, D. Awschalom (2006)
Room-temperature manipulation and decoherence of a single spin in diamondPhysical Review B, 74
BC Ren, FF Du, FG Deng (2013)
Hyperentanglement concentration for two-photon four-qubit systems with linear opticsPhys. Rev. A, 88
Cong Cao, Chuan Wang, Ling-yan He, Ru Zhang (2013)
Atomic entanglement purification and concentration using coherent state input-output process in low-Q cavity QED regime.Optics express, 21 4
ChuanLiang Wang (2012)
Efficient entanglement concentration for partially entangled electrons using a quantum-dot and microcavity coupled systemPhysical Review A, 86
Yu-Bo Sheng, Lan Zhou, Shengmei Zhao, B. Zheng (2012)
Efficient single-photon-assisted entanglement concentration for partially entangled photon pairsPhysical Review A, 85
Chuan Wang, Yong Zhang, Rongzhen Jiao, Guang-Sheng Jin (2013)
Universal quantum controlled phase gate on photonic qubits based on nitrogen vacancy centers and microcavity resonators.Optics express, 21 16
Fangfang Du, Tao Li, B. Ren, Hai‐Rui Wei, Fuguo Deng (2012)
Single-photon-assisted entanglement concentration of a multiphoton system in a partially entangled W state with weak cross-Kerr nonlinearityJournal of The Optical Society of America B-optical Physics, 29
Charles Bennett, Herbert Bernstein, S. Popescu, B. Schumacher (1995)
Concentrating partial entanglement by local operations.Physical review. A, Atomic, molecular, and optical physics, 53 4
N. Manson, J. Harrison, M. Sellars (2006)
Nitrogen-vacancy center in diamond: Model of the electronic structure and associated dynamicsPhysical Review B, 74
B. Ren, Fuguo Deng (2013)
Hyperentanglement purification and concentration assisted by diamond NV centers inside photonic crystal cavitiesLaser Physics Letters, 10
B. Ren, Fangfang Du, Fuguo Deng (2013)
Practical hyperentanglement concentration for two-photon four-qubit systems with linear optics
A. Young, C. Hu, L. Marseglia, J. Harrison, J. O'Brien, J. Rarity (2008)
Cavity enhanced spin measurement of the ground state spin of an NV center in diamondNew Journal of Physics, 11
Charles Bennett, G. Brassard, S. Popescu, B. Schumacher, J. Smolin, W. Wootters (1995)
Purification of noisy entanglement and faithful teleportation via noisy channels.Physical review letters, 76 5
Yu-Bo Sheng, Fuguo Deng, Hong-Yu Zhou (2009)
Single-photon entanglement concentration for long-distance quantum communicationQuantum Inf. Comput., 10
Yu-Bo Sheng, Fuguo Deng, Hong-Yu Zhou (2008)
Nonlocal entanglement concentration scheme for partially entangled multipartite systems with nonlinear opticsPhysical Review A, 77
B. Buckley, G. Fuchs, L. Bassett, D. Awschalom (2010)
Spin-Light Coherence for Single-Spin Measurement and Control in DiamondScience, 330
Zhi Zhao, Jian-Wei Pan, Mingsheng Zhan (2001)
Practical scheme for entanglement concentrationPhysical Review A, 64
Zhao-Hui Peng, J. Zou, Xiao-Juan Liu, Yong-Jun Xiao, L. Kuang (2012)
Atomic and photonic entanglement concentration via photonic Faraday rotationPhysical Review A, 86
M. Hijlkema, B. Weber, H. Specht, S. Webster, A. Kuhn, G. Rempe (2007)
A Single-Photon Server with Just One Atom2007 European Conference on Lasers and Electro-Optics and the International Quantum Electronics Conference
E. Togan, Y. Chu, A. Trifonov, Liang Jiang, J. Maze, L. Childress, M. Dutt, A. Sørensen, P. Hemmer, A. Zibrov, A. Imamoğlu, M. Lukin (2010)
Quantum entanglement between an optical photon and a solid-state spin qubitNature, 466
Peng-Bo Li, Shaoyan Gao, Fuli Li (2010)
Quantum-information transfer with nitrogen-vacancy centers coupled to a whispering-gallery microresonatorPhysical Review A, 83
P. Neumann, N. Mizuochi, F. Rempp, P. Hemmer, H. Watanabe, S. Yamasaki, V. Jacques, T. Gaebel, F. Jelezko, J. Wrachtrup (2008)
Multipartite Entanglement Among Single Spins in DiamondScience, 320
Liu-Yong Cheng, Hong‐Fu Wang, Shou Zhang, K. Yeon (2013)
Quantum state engineering with nitrogen-vacancy centers coupled to low-Q microresonator.Optics express, 21 5
T Aoki, AS Parkins, DJ Alton, CA Regal, B Dayan, E Ostby, KJ Vahala, HJ Kimble (2009)
Efficient routing of single photons by one atom and a microtoroidal cavityPhys. Rev. Lett., 102
B. Ren, Hai‐Rui Wei, Tao Li, Ming Hua, Fuguo Deng (2012)
Optimal multipartite entanglement concentration of electron-spin states based on charge detection and projection measurementsQuantum Information Processing, 13
F. Shi, X. Rong, Nanyang Xu, Ya Wang, Jie Wu, Bo Chong, X. Peng, Juliane Kniepert, R. Schoenfeld, W. Harneit, M. Feng, Jiangfeng Du (2010)
Room-temperature implementation of the Deutsch-Jozsa algorithm with a single electronic spin in diamond.Physical review letters, 105 4
A-Peng Liu, Liu-Yong Cheng, Li Chen, S. Su, Hong‐Fu Wang, Shou Zhang (2014)
Quantum information processing in decoherence-free subspace with nitrogen-vacancy centers coupled to a whispering-gallery mode microresonatorOptics Communications, 313
Qiong Chen, M. Feng (2009)
Quantum gating on neutral atoms in low- Q cavities by a single-photon input-output processPhysical Review A, 79
Yu-Bo Sheng, Fuguo Deng, Hong-Yu Zhou (2008)
Efficient polarization entanglement concentration for electrons with charge detectionPhysics Letters A, 373
Chuan Wang, Yong Zhang, Guang-Sheng Jin, Ru Zhang (2012)
Efficient entanglement purification of separate nitrogen-vacancy centers via coupling to microtoroidal resonatorsJournal of The Optical Society of America B-optical Physics, 29
P. Barclay, K. Fu, C. Santori, R. Beausoleil (2009)
Chip-based microcavities coupled to nitrogen-vacancy centers in single crystal diamondApplied Physics Letters, 95
Takashi Yamamoto, M. Koashi, N. Imoto (2001)
Concentration and purification scheme for two partially entangled photon pairsPhysical Review A, 64
Fuguo Deng (2011)
Optimal nonlocal multipartite entanglement concentration based on projection measurementsPhysical Review A, 85
Chuan Wang, Yong Zhang, Guang-Sheng Jin (2011)
Polarization-entanglement purification and concentration using cross-kerr nonlinearityQuantum Inf. Comput., 11
Yu-Bo Sheng, Lan Zhou (2013)
Quantum Entanglement Concentration Based on Nonlinear Optics for Quantum CommunicationsEntropy, 15
Zhi Zhao, Tao Yang, Yu-Ao Chen, A. Zhang, Jian-Wei Pan (2003)
Experimental realization of entanglement concentration and a quantum repeater.Physical review letters, 90 20
B. Ren, G. Long (2014)
General hyperentanglement concentration for photon systems assisted by quantum-dot spins inside optical microcavities.Optics express, 22 6
Chuan Wang, Yong Zhang, M. Lei, Guang-Sheng Jin, Haiqiang Ma, Ru Zhang (2014)
Nonlocal entanglement concentration of separate nitrogen-vacancy centers coupling to microtoroidal resonatorsQuantum Inf. Comput., 14
Chuan Wang, Cong Cao, Xin Tong, Sichen Mi, Weiwei Shen, Tie-jun Wang (2014)
Implementation of quantum repeaters based on nitrogen-vacancy centers via coupling to microtoroid resonatorsLaser Physics, 24
M. Larsson, K. Dinyari, Hailin Wang (2009)
Composite optical microcavity of diamond nanopillar and silica microsphere.Nano letters, 9 4
Ling-yan He, Cong Cao, Chuan Wang (2013)
Entanglement concentration for multi-particle partially entangled W state using nitrogen vacancy center and microtoroidal resonator systemOptics Communications, 298
Yu-Bo Sheng, Lan Zhou, Shengmei Zhao (2012)
Efficient two-step entanglement concentration for arbitrary W statesPhysical Review A, 85
Tao Li, Guo‐Jian Yang, Fuguo Deng (2014)
Entanglement distillation for quantum communication network with atomic-ensemble memories.Optics express, 22 20
B. Dayan, A. Parkins, T. Aoki, E. Ostby, K. Vahala, H. Kimble (2008)
A Photon Turnstile Dynamically Regulated by One AtomScience, 319
Young‐Shin Park, Andrew Cook, Hailin Wang (2006)
Cavity QED with diamond nanocrystals and silica microspheres.Nano letters, 6 9
G. Lange, Zhihui Wang, D. Ristè, V. Dobrovitski, R. Hanson (2010)
Universal Dynamical Decoupling of a Single Solid-State Spin from a Spin BathScience, 330
Takashi Yamamoto, M. Koashi, Ş. Özdemir, N. Imoto (2003)
Experimental extraction of an entangled photon pair from two identically decohered pairsNature, 421
T. Aoki, A. Parkins, D. Alton, Cindy Regal, B. Dayan, E. Ostby, K. Vahala, H. Kimble (2009)
Efficient routing of single photons with one atom and a microtoroidal cavity2009 Conference on Lasers and Electro-Optics and 2009 Conference on Quantum electronics and Laser Science Conference
Here in this study we propose an efficient entanglement concentration protocol (ECP) for separate nitrogen-vacancy (NV) centers, resorting to the single-photon input–output process of the NV center and microtoroidal resonator coupled system. In the proposed ECP, one ancillary single-photon is prepared and passed through a hybrid quantum circuit. By measuring the photon under the suitable polarization basis, maximally entangled state between the separate NV centers can be obtained with a certain success probability. The solid entanglement will be preserved during the process, which can be iterated several rounds to obtain an optimal total success probability. We also discuss the experimental feasibility of the protocol by considering current technologies, and we believe that the protocol is useful in the future applications of long-distance quantum communication and distributed quantum computation.
Quantum Information Processing – Springer Journals
Published: Jan 22, 2015
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