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SCI Citation Record: http://www.researcherid.com/rid/F-9441-2010
21. Y. Shen, H. Y. Ko, Q. Ai, S. M. Peng, B. Y. Jin,
Molecular Split-Ring Resonators Based on Metal String Complexes,
J. Phys. Chem. C 118, 3766 (2014).PDF
20. P. Zhang, Q. Ai, Y. Li, D.Z. Xu, and C. P. Sun,
19. Q. Ai, T.-C. Yen, B.-Y. Jin, and Y.-C. Cheng,
Clustered Geometries Exploiting Quantum Coherence Effects for
Efficient Energy Transfer in Light Harvesting,
J. Phys. Chem. Lett. 4, 2577 (2013).PDF
18. Q. Ai, D. Z. Xu, S. Yi, A. G. Kofman, C. P. Sun, and F. Nori,
Quantum anti-Zeno effect without wave function reduction,
Sci. Rep. 3, 1752 (2013).PDF
17. L. P. Yang, Q. Ai, and C. P. Sun,
Generalized Holstein model for spin-dependent electron transfer reaction,
Phys Rev. A 85, 032707 (2012).PDF
16. C. Y. Cai, Q. Ai, H. T. Quan, and C. P. Sun
Sensitive Chemical Compass Assisted by Quantum Criticality,
Phys Rev. A 85, 022315 (2012). PDF
15. J. F. Huang, Q. Ai, Y. G. Deng, C. P. Sun, and F. Nori,
Atomic blockade induced by photons inside cavity,
Phys Rev. A 85, 023801 (2012). PDF
14. X. F. Cao, Q. Ai, C. P. Sun, and F. Nori,
The transition from Quantum Zeno to anti-Zeno effects of a qubit in a cavity by modulating the cavity frequency,
Phys. Lett. A 376, 349 (2012).PDF
13. Y. Cao,W. Y. Huo, Q. Ai, and G. L. Long,
Theory of Degenerate Three-Wave Mixing Using Circuit QED in Solid State Circuits,
Phys. Rev. A 84, 053846 (2011).PDF
12. Y. Shen, Q. Ai, and G. L. Long,
A scheme for simulation of quantum gates by Abelian anyons,
Commun. Theor. Phys. 56, 873 (2011).PDF
11. D. Z. Xu, Q. Ai, and C. P. Sun,
Dispersive-coupling-based quantum Zeno effect in a cavity-QED system,
Phys. Rev. A 83, 022107 (2011).PDF
10. Q. Ai and J. Q. Liao,
Quantum anti-Zeno effect in artificial quantum systems,
Commun. Theor. Phys. 54, 985 (2010).PDF
9. Q. Ai, Y. Li, H. Zheng, and C. P. Sun,
Quantum anti-Zeno effect without rotating wave approximation,
Phys. Rev. A 81, 042116 (2010).PDF
8. Y. Shen, Q. Ai, and G. L. Long,
The relation between properties of Gentile statistics and fractional statistics of anyon,
Physica A 389, 1565 (2010).PDF
7. C. Wang, W. Y. Wang, Q. Ai, and G. L. Long,
Deterministic quantum key distribution with pulsed homodyne detection,
Commun. Theor. Phys. 53, 67 (2010).PDF
6. Q. Ai, W. Y. Huo, G. L. Long, and C. P. Sun,
Nonadiabatic fluctuation in the measured geometric phase,
Phys. Rev. A 80, 024101 (2009).PDF
5. Q. Ai, Y. D. Wang, G. L. Long, and C. P. Sun,
Two Mode Photon Bunching Effect as Witness of Quantum Criticality in Circuit
QED,
Sci. Chin. G 52, 1898 (2009).PDF
4. Q. Ai, T. Shi, G. L. Long, and C. P. Sun,
Induced entanglement enhanced by quantum criticality,
Phys. Rev. A 78, 022327 (2008).PDF
3. Q. Ai, Y. Li, G. L. Long, and C. P. Sun,
Creation of Entanglement between Two Electron Spins Induced by Many Spin En-
semble Excitations,
Euro. Phys. J. D 48, 293 (2008).PDF
2. Q. Ai, Y. S. Li, and G. L. Long,
Influences of gate operation errors in the quantum counting algorithm,
J. Comp. Sci. & Tech. 21, 927 (2006).PDF
1. C. Wang, J. F. Zhang, P. X. Wang, F. G. Deng, Q. Ai, and G. L. Long,
Experimental realization of quantum cryptography communication in free space,
Sci. Chin. G 48, 237 (2005).PDF
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