Access the full text.
Sign up today, get DeepDyve free for 14 days.
J. Pachos, H. Walther (2002)
Quantum computation with trapped ions in an optical cavityPhys. Rev. Lett., 89
A. Rauschenbeutel, G. Nogues, S. Osnaghi, P. Bertet, M. Brune, J. Raimond, S. Haroche (2000)
Step-by-Step engineered multiparticle entanglementScience, 288
X.Q. Shao, H.F. Wang, L. Chen, S. Zhang, K.H. Yeon (2009)
One-step implementation of the Toffoli gate via quantum Zeno dynamicsPhys. Lett. A, 374
P. Facchi, S. Pascazio, A. Scardicchio, L.S. Schulman (2001)
Zeno dynamics yields ordinary constraintsPhys. Rev. A, 65
G.L. Long, X.S. Liu (2002)
Theoretically efficient high-capacity quantum-key-distribution schemePhys. Rev. A, 65
P. Zanardi, M. Rasetti (1997)
Noiseless Quantum CodesPhys. Rev. Lett., 79
X.B. Wang, J.Q. You, F. Nori (2008)
Quantum entanglement via two-qubit quantum Zeno dynamicsPhys. Rev. A, 77
X. Su, A. Tan, X. Jia, J. Zhang, C. Xie, K. Peng (2007)
Experimental preparation of quadripartite cluster and Greenberger-Horne-Zeilinger entangled states for continuous variablesPhys. Rev. Lett., 98
C.H. Bennett, G. Brassard, C. Crepeau, R. Jozsa, A. Peres, W.K. Wootters (1993)
Teleporting an unknown quantum state via dual classical and Einstein-Podolsky-Rosen channelsPhys. Rev. Lett., 70
A.K. Ekert (1991)
Quantum cryptography based on Bell’s theoremPhys. Rev. Lett., 67
E. Hagley, X. Maitre, G. Nogues, C. Wunderlich, M. Brune, J.M. Raimond, S. Hroche (1997)
Generation of Einstein-Podolsky-Rosen pairs of atomsPhys. Rev. Lett., 79
H. Kim, Y.W. Cheong, H.W. Lee (2004)
Generalized measurement and conclusive teleportation with nonmaximal entanglementPhys. Rev. A, 70
Z.C. Shi, Y. Xia, J. Song, H.S. Song (2012)
One-step implementation of the Fredkin gate via quantum Zeno dynamicsQuantum Inf. Comput., 12
S.M. Spillane, T.J. Kippenberg, K.J. Vahala, K.W. Goh, E. Wilcut, H.J. Kimble (2005)
Ultrahigh-Q toroidal microresonators for cavity quantum electrodynamicsPhys. Rev. A, 71
J.S. Bell (1965)
On the Einstein-Podolsky-Rosen paradoxPhysics (Long Island City, N. Y.), 1
C. Simon, W.T.M. Irvine (2003)
Robust long-distance entanglement and a loophole-free Bell test with ions and photonsPhys. Rev. Lett., 91
J.K. Pachos, A. Beige (2004)
Decoherence-free dynamical and geometrical entangling phase gatesPhys. Rev. A, 69
C.S. Yu, X.X. Yi, H.S. Song, D. Mei (2007)
Robust preparation of Greenberger-Horne-Zeilinger and W states of three distant atomsPhys. Rev. A, 75
A. Cabello (1998)
Ladder proof of nonlocality without inequalities and without probabilitiesPhys. Rev. A, 58
Z.J. Zhang, Z.X. Man (2005)
Multiparty quantum secret sharing of classical messages based on entanglement swappingPhys. Rev. A, 72
X.B. Zou, K. Li, G.C. Guo (2006)
Linear optical scheme for direct implementation of a nondestructive N-qubit controlled phase gatePhys. Rev. A, 74
A.L. Wen, Y.H. Guang (2011)
Deterministic generation of a three-dimensional entangled state via quantum Zeno dynamicsPhys. Rev. A, 83
Y. Xia, J. Song, H.S. Song (2008)
Linear optical protocol for preparation of N-photon Greenberger-Horne-Zeilinger state with conventional photon detectorsAppl. Phys. Lett., 92
X. Zou, K. Pahlke, W. Mathis (2003)
Conditional generation of the Greenberger-Horne-Zeilinger state of four distant atoms via cavity decayPhys. Rev. A, 68
D.F. James, J. Jerke (2007)
Effective Hamiltonian theory and its applications in quantum informationCan. J. Phys., 85
B. Misra, E.C.G. Sudarshan (1977)
The Zeno’s paradox in quantum theoryJ. Math. Phys., 18
J.I. Cirac, P. Zoller (1994)
Preparation of macroscopic superpositions in many-atom systemsPhys. Rev. A, 50
Z.C. Shi, Y. Xia, J. Song, H.S. Song (2011)
Atomic quantum state transferring and swapping via quantum Zeno dynamicsJ. Opt. Soc. Am. B, 28
W. Dür, G. Vidal, J.I. Cirac (2000)
Three qubits can be entangled in two inequivalent waysPhys. Rev. A, 62
J. Song, Y. Xia, H.S. Song, J.L. Guo, J. Nie (2007)
Quantum computation and entangled-state generation through adiabatic evolution in two distant cavitiesEurophys. Lett., 80
N. Gisin, S. Massar (1993)
Optimal quantum cloning machinesPhys. Rev. Lett., 79
N.D. Mermin (1980)
Quantum mechanics vs local realism near the classical limit: a Bell inequality for spinsPhys. Rev. D, 22
Y. Xia, H.S. Song (2007)
Controlled quantum secure direct communication using a non-symmetric quantum channel with quantum superdense codingPhys. Lett. A, 364
G.W. Lin, M.Y. Ye, L.B. Chen, Q.H. Du, X.M. Lin (2007)
Generation of the singlet state for three atoms in cavity QEDPhys. Rev. A, 76
Z.C. Shi, Y. Xia, J. Song, H.S. Song (2012)
Effective scheme for generation of two-dimensional cluster states via quantum Zeno dynamicsEur. Phys. J. D, 66
S.B. Zheng (2001)
One-step synthesis of multiatom Greenberger-Horne-Zeilinger statesPhys. Rev. Lett., 87
F.G. Deng, G.L. Long (2004)
Bidirectional quantum key distribution protocol with practical faint laser pulsesPhys. Rev. A, 70
A.D. Zhu, Y. Xia, Q.B. Fan, S. Zhang (2006)
Secure direct communication based on secret transmitting order of particlesPhys. Rev. A, 73
R.F. Werner (1989)
Quantum states with Einstein-Podolsky-Rosen correlations admitting a hidden-variable modelPhys. Rev. A, 40
F.G. Deng, G.L. Long, X.S. Liu (2003)
Two-step quantum direct communication protocol using the Einstein-Podolsky-Rosen pair blockPhys. Rev. A, 68
X.B. Zou, S.L. Zhang, K. Li, G.C. Guo (2007)
Linear optical implementation of the two-qubit controlled phase gate with conventional photon detectorsPhys. Rev. A, 75
P. Facchi, V. Gorini, G. Marmo, S. Pascazio, E.C.G. Sudarshan (2000)
Quantum Zeno dynamicsPhys. Lett. A, 275
A. Cabello (2002)
N-Particle N-Level singlet states: some properties and applicationsPhys. Rev. Lett., 89
W. Lange, H.J. Kimble (2000)
Dynamic generation of maximally entangled photon multiplets by adiabatic passagePhys. Rev. A, 61
C. Cabrillo, J.I. Cirac, P. Garcia-Fernandez, P. Zoller (1999)
Creation of entangled states of distant atoms by interferencePhys. Rev. A, 59
L.M. Duan, H.J. Kimble (2003)
Efficient engineering of multiatom entanglement through single-photon detectionsPhys. Rev. Lett., 90
G.S. Jin, S.S. Li, S.L. Feng, H.Z. Zheng (2005)
Generation of a supersinglet of three three-level atoms in cavity QEDPhys. Rev. A, 71
S.B. Zheng, G.C. Guo (2000)
Efficient scheme for two-atom entanglement and quantum information processing in cavity QEDPhys. Rev. Lett., 85
P. Facchi, S. Pascazio (2001)
Quantum Zeno and inverse quantum Zeno effectsProg. Opt., 42
J.D. Franson, B.C. Jacobs, T.B. Pittman (2004)
Quantum computing using single photons and the Zeno effectPhys. Rev. A, 70
G. Gordon, G. Rigolin (2006)
Generalized teleportation protocolPhys. Rev. A, 73
A. Einstein, B. Podolsky, N. Rosen (1935)
Can quantum-mechanical description of physical reality be considered complete?Physics (Long Island City, N. Y.), 47
D.M. Greenberger, M.A. Horne, A. Shimony, A. Zeilinger (1990)
Bell’s theorem without inequalitiesAm. J. Phys., 58
S. Bose, P.L. Knight, M.B. Plenio, V. Vedral (1999)
Proposal for teleportation of an atomic state via cavity decayPhys. Rev. Lett., 83
J.R. Buck, H.J. Kimble (2003)
Optimal sizes of dielectric microspheres for cavity QED with strong couplingPhys. Rev. A, 67
C.S. Yu, X.X. Yi, H.S. Song, D. Mei (2008)
Preparation of a stable and maximally entangled state of two distant qutrits trapped in separate cavitiesEur. Phys. J. D, 48
X.Q. Shao, H.F. Wang, L. Chen, S. Zhang, Y.F. Zhao, K.H. Yeon (2010)
Converting two-atom singlet state into three-atom singlet state via quantum Zeno dynamicsNew J.Phys., 12
S. Zhang, X.Q. Shao, L. Chen, Y.F. Zhao, K.H. Yeon (2011)
Robust $${\sqrt{\rm swap}}$$ gate on nitrogen-vacancy centres via quantum Zeno dynamicsJ. Phys. B At. Mol. Opt. Phys., 44
P. Facchi, S. Pascazio (2002)
Quantum Zeno subspacesPhys. Rev. Lett., 89
C.C. Gerry (1996)
Preparation of multiatom entangled states through dispersive atom-cavity-field interactionsPhys. Rev. A, 53
X.L. Feng, Z.M. Zhang, X.D. Li, S.Q. Li, S.Q. Gong, Z.Z Xu (2003)
Entangling distant atoms by interference of polarized photonsPhys. Rev. Lett., 90
We propose an efficient scheme for generation of three-atom singlet state in a bimodal cavity based on quantum Zeno dynamics and the large detuning condition. The influence of decoherence induced by cavity decay and atomic spontaneous emission is also discussed by numerical calculation. The advantages of the scheme are that the initial input states of atoms are not entangled and the fidelity is insensitive to cavity decay and atomic spontaneous emission due to no exciting the cavity fields during the whole evolution and the large detuning condition.
Quantum Information Processing – Springer Journals
Published: Mar 15, 2012
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.