发表与完成的论文 发表与完成的论文

最小化 最大化

自2006年以来发表的论文按 "少体原子分子理论与应用"、"原子分子外场与环境效应"和"量子信息理论"分列如下:

少体原子分子理论与应用:

37. Y. B. Tang, Z. X. Zhong, C. B. Li, H. X. Qiao, and T. Y. Shi, Bethe-logarithm calculation using the B-spline method, Phys. Rev. A 87, 022510 (2013).

36. S. L. Hu and T. Y. Shi, Effect of electron correlation on high-order harmonic generation in helium model atom, Chin. Phys. B22(1), 013101(2013).

35. L. Y. Tang, M. W. J. Bromley, Z. C. Yan, and J. Mitroy, Dynamic Stark shift of the Li(2s->3s) transition, Phys. Rev. A 87, 032507 (2013).

34. J. Jiang, L. Y. Tang, and J. Mitroy,Tune-out wavelengths for potassium, Phys. Rev. A 87, 032518 (2013).

33. Z. X. Zhong, P. P. Zhang, Z. C. Yan, and T. Y. Shi, Precision spectroscopy of the hydrogen molecular ion HD+, Phys. Rev. A 86, 064502 (2012).

32. V. I. Korobov, and Z. X. Zhong, Bethe logarithm for the H2+ and HD+ molecular ions, Phys. Rev. A. 86, 044501 (2012).

31. Y. X. Zhang, Q. Liu, and T. Y. Shi, Accurate one-centre method for hydrogen molecular ion calculation using B-spline-type basis sets in strong magnetic fields, J. Phys. B: At. Mol. Opt. Phys. 45, 085101 (2012).

30. M. M. Liu, H. L. Han, S. H. Gu and T. Y. Shi, Narrow Near-Threshold Resonance in e+–He+ Scattering, Chin. Phys. Lett. 29, 013101 (2012).

29. Z. Z. Ren, H. L. Han, T. Y. Shi, and J. Mitroy, Structure and resonances of the e+–He(1s2s 3Se) system, J. Phys. B: At. Mol. Opt. Phys. 45, 085002 (2012).

28. L. E. Xiao, C. Yao, X. R. He, and H. L. Han, Hyperspherical Study of Ne2Kr and Ne2Xe Systems, Wuhan University Journal of Natural Sciences 17, 277 (2012).

27. L. Y. Tang, Z. C. Yan, T. Y. Shi, J. F. Babb and J. Mitroy, The long-range non-additive three-body dispersion  interaction for the rare gases, alkali and alkaline-earth atoms, J. Chem. Phys. 136, 104104 (2012).

26. L. Y. Tang, Y. H. Zhang, X. Z. Zhang, J. Jiang, and J. Mitroy, Computational investigation of static multipole polarizabilities and sum rules for ground-state hydrogenlike ions, Phys. Rev. A 86, 012505 (2012).

25. Y. H. Zhang, L. Y. Tang, X. Z. Zhang, J. Jiang, and J. Mitroy,Convergence of the multipole expansions of the polarization and dispersion interactions for atoms under confinement, J. Chem. Phys. 136, 174107 (2012).

24. Y. H. Zhang, L. Y. Tang, X. Z. Zhang, T. Y. Shi, and J. Mitroy, Relativistic quadrupole polarizability for the ground state of hydrogen-like ions, Chin. Phys. Lett. 29,063101 (2012).

23. Q. L. Tian, L. Y. Tang, Z. X. Zhong, Z. C. Yan, and T. Y. Shi, Oscillator strengths between low-lying ro-vibrational states of hydrogen molecular ions. J. Chem. Phys. 137, 024311 (2012).

22. J. Y. Zhang, L. Y. Tang, T. Y. Shi, Z. C. Yan, and U. Schwingenschlogl, Long-range interactions between excited helium and alkali-metal atoms, Phys. Rev. A 86, 064701 (2012).

21. H. L. Han, L. Y. Tang, and T. Y. Shi, Three-body hyperspherical method with infinite angular expansions, Phys. Rev. A 84, 064503 (2011).

20. L. Y. Tang, Z. C. Yan, T. Y. Shi, and J. Mitroy, Third-order perturbation theory for van der Waals interaction coefficients, Phys. Rev. A 84, 052502 (2011).

19. H. L. Han, Y. Li, and T. Y. Shi,The weakly bound states and resonances of the BeHe2triatomic system. J. Chem. Phys. 134, 194307(2011).

18. Z. Z. Ren, H. L. Han, and T. Y. Shi, S-wave resonances in the positron-helium scattering. J. Phys. B 44, 065204(2011).

17. L. Y. Tang, J. Y. Zhang, Z. C. Yan, T. Y. Shi, and J. Mitroy, Long-range dispersion coefficients for Li, Li+, and Be+interacting with the rare gases. J. Chem. Phys. 133, 104306(2010).

16. Y. Li, W. J. Zhang, Q. D. Gou, H. W. Song, and T. Y. Shi, Search for Borromean states in the He-He-Rb triatomic system. Phys. Rev. A 82, 022515 (2010).

15. L. Y. Tang, Z. C. Yan, T. Y. Shi, and J. Mitroy, Dynamic dipole polarizabilities of the Li atom and the Be+ion. Phys. Rew A. 81, 042521 (2010).

14. V. I. Korobov and Z. X. Zhong, Spin-orbit corrections of order m alpha(6) to the fine structure of the (37,35) state in the He-4 p antiprotonic helium atom. Phys. Rev. A 80, 042506 (2009).

13. L. Y. Tang, J. Y. Zhang, Z. C. Yan, T. Y. Shi, J. F. Babb, and J. Mitroy, Calculations of polarizabilities and hyperpolarizabilities for the Be+ion. Phys. Rew A 80, 042511 (2009).

12. V. I. Korobov and Z. X. Zhong, Precision spectroscopy of antiprotonic helium. Hyperfine Interact. 194, 15 (2009).

11. L. Y. Tang, Z. C. Yan, T. Y. Shi, and J. F. Babb, Nonrelativistic ab initio calculations for 22S, 22P, and 32D lithium isotopes: Applications to polarizabilities and dispersion interactions.  Phys. Rew A 79, 062712 (2009).

10. Z. X. Zhong, Z. C. Yan, and T. Y. Shi, Leading-order relativistic corrections to the hydrogen molecular ion.  Phys. Rew A 79, 064502(2009).

9. H.L. Han, and T. Y. Shi, S-wave resonances in positron scattering from Li and Na. 9th International Workshop on Positron and Positronium Chemistry, MAY 11-15, 2008 Wuhan Univ, Wuhan, PEOPLES R CHINA. POSITRON AND POSITRONIUM CHEMISTRY. ATERIALS SCIENCE FORUM. 607: 42-44 (2009).

8. Y. Li, H. W. Song, Q. D. Gou, H. L. Han, and T. Y. Shi, Search for weakly bound states of the He-He-Be triatomic system. Phys. Rev. A 79, 024501 (2009).

7. H. L. Han, Z. X. Zhong, X. Z. Zhang, and T. Y. Shi, S-wave resonances in positron-lithium scattering below the Li (n=4) thresholds. Phys. Rew A 78, 044701 (2008).

6. H. L. Han, Y. Li,  X. Z. Zhang, and T. Y. Shi, Binding energy and geometry of e+A, (A= Li, Na) by the hyperspherical approach (vol 128, artn no 244314, 2008).  J. Chem. Phys. 129, 169901 (2008).

5. H. L. Han, Y. Li, X. Z. Zhang, and T. Y. Shi, Binding energy and geometry of e+A (A=Li,Na) by the hyperspherical approach, J. Chem. Phys. 128, 244314 (2008).

4. H. L. Han, Z. X. Zhong, X. Z. Zhang, and T. Y. Shi, S-wave resonances in positron-sodium scattering. Phys. Rev. A 77, 012721 (2008).

3. H. L. Han, X. Z. Zhang, and T. Y. Shi, Hyperspherical calculations on electron affinity and geometry for Li-and Na-. Chin. Phys. Lett. 24, 3392 (2007).

2. H. L. Han, Y. Li, X. Z. Zhang, and T. Y. Shi, Hyperspherical coupled channel calculations for the spectra and structure parameters of rare gas trimers NeAr2 and Ne2Ar.  J. Chem. Phys. 127, 154104 (2007).

1. Y. Li, Q. D. Gou, and T. Y. Shi, Halo state in realistic molecular systems. Phys. Rew A 74, 032502 (2006).

原子分子外场与环境效应:

25. Lai XY, Cai QY, and Zhan MS, Bohmian mechanics to high-order harmonic generation. Chin. Phys. B 19, 020302 (2010).

24. Lai XY, Cai QY, and Zhan MS, From a quantum to a classical description of intense laser-atom physics with Bohmian trajectories. New J. Phys. 11, 113035 (2009).

23. Lai XY, Cai QY, and Zhan MS, Above-threshold ionization photoelectron spectrum from quantum trajectory. Eur. Phys. D 53, 393 (2009).

22. Meng HY, and Shi TY, Model Potential Calculations of Oscillator Strength Spectra of Rydberg Li Atoms in External Fields. COMMUNICATIONS IN THEORETICAL PHYSICS. 52, 333 (2009).

21. Zhang YX, Kang S, and Shi TY, Accurate One-Centre Method for Hydrogen Molecule Ions in Strong Magnetic Field, Chin. Phys. Lett. 25, 3946 (2008).

20. Kang S, Liu YM, and Shi TY, H2+-like impurities confined by spherical quantum dots A candidate for charge qubits.  COMMUNICATIONS IN THEORETICAL PHYSICS. 50, 767 (2008).

19. Bian XB, Peng LY, and Shi TY, Ionization dynamics of linear molecular ion H(3)2+in dc and low-frequency laser fields.  Phys. Rev. A 78, 053408 (2008).

18. Meng HY, Zhang YX, Kang S, Shi TY, and Zhan MS, Theoretical complex Stark energies of lithium by a complex scaling plus the B-spline approach. J. Phys. B 41, 155003 (2008).

17. Bian XB, Peng LY, and Shi TY, Enhanced excitation and ionization of H2+by a single- and two-color intense laser pulse.  Phys. Rev. A 77, 063415 (2008).

16. Kang S, Liu YM, and Shi TY, The characteristics for H2+-like impurities confined by spherical quantum dots.  Eur. Phys. B 63, 37 (2008).

15. Bian XB, Liu HP, and Shi TY, A time-dependent approach to high-resolution photoabsorption spectrum of Rydberg atoms in magnetic fields. Chin. Phys. Lett. 25, 2008 (2008).

14. Liu YM, Huang GM, and Shi TY, Five- and six-electron quantum rings in a magnetic field.  Phys. Rew. B 77, 115311 (2008).

13. Zhang YX, Meng HY, and Shi TY, Resonances of a hydrogen atom in strong parallel electric and magnetic fields using B-spline basis sets.  Chin. Phys. B 17, 140 (2008).  

12. Bian XB, Qiao HX, and Shi TY, Pseudospectral method with symplectic algorithm for the solution of time-dependent Schrodinger equations. Chin. Phys. 16, 1822 (2007).

11. Meng HY, Kang S, Shi TY, and Zhan MS, Model potential calculations of oscillator strength spectra of lithium atoms in parallel electric and magnetic fields.  ACTA PHYSICA SINICA (IN CHINESE). 56, 3198 (2007).

10. Kang SA, Liu Q, Meng HY, and Shi TY, Hydrogen atom in ellipsoidal cavity. Phys. Lett. A 360, 608 (2007).

9. Liu YM, Huang GM, and Shi TY, The ground state of quantum rings in a magnetic field. Mod. Phys. Lett. B 20, 1443 (2006).

8. Kang SA, Li J, and Shi TY, Investigation of hydrogenic-donor states confined by spherical quantum dots with B-splines.  J. Phys. B 39, 3491 (2006).

7. Bian XB, Qiao HX, and Shi TY, B-spline with symplectic algorithm method for solution of time-dependent Schrodinger equations. Chin. Phys. Lett. 23, 2403 (2006).   

6. Kang S, Liu Q, Zhong ZX, Zhang XZ, and Shi TY, Calculation of diamagnetic spectrum of Rydberg hydrogen atom using B-spline basis sets.  ACTA PHYSICA SINICA (IN CHINESE). 55, 3380 (2006).

5. Pi LW, Shi TY, and Qiao HY, Enhancement of bichromatic high-order harmonic generation by a strong laser field and its third harmonic. Chin. Phys. Lett. 23, 1490 (2006).  

4. Liu YM, Bao CG, and Shi TY, Few-electron quantum rings in a magnetic field: Ground-state properties.  Phys. Rew. B 73, 113313 (2006).

3. Wu LJ, Shi TY, and Gao KL, Effect of laser cooling on frequency standard of single Ca+ ion trapped in a radio-frequency Paul trap. Chin. Phys. Lett. 23, 83 (2006).

2. Liu Q, Kang S, Zhang XZ, and Shi TY, Hydrogen atom in strong magnetic field: A high accurate calculation in spheroidal coordinates. FRONTIERS OF PHYSICS IN CHINA. 4, 419 (2006).

1. Meng HY, Shi TY, and Zhan MS, Model potential calculations of diamagnetic spectra of Rydberg sodium atoms.  J. At. Mol. Phys.(in Chinese). 23, 458 (2006).

量子信息理论:

19. Zhang BC, Cai QY and Zhan MS, Entropy Conservation in the Transition of Schwarzschild-de Sitter Space to de Sitter Space through Tunneling, Chin. Phys. Lett. 29, 020401 (2012).

18. Fung C.-H. F, Ma XF, Chau HF, and Cai QY, Quantum key distribution with delayed privacy amplification and its application to the security proof of a two-way deterministic protocol, Phys. Rev. A 85, 032308 (2012).

17. Tan YG and Cai QY, Passive decoy state quantum key distribution with finite resource. INTERNATIONAL JOURNAL OF QUANTUM INFORMATION. 9, 903 (2011).

16. Zhang BC, Cai QY, Zhan MS, and You L, Noncommutative information is revealed from Hawking radiation as tunneling.  EPL. 94, 20002 (2011).

15. Zhang BC, Cai QY, Zhan MS, and You L, An interpretation for the entropy of a black hole. GENERAL RELATIVITY AND GRAVITATION. 43, 797 (2011).

14. Zhang BC, Cai QY, Zhan MS, and You L, Entropy is conserved in Hawking radiation as tunneling: A revisit of the black hole information loss paradox.  ANNALS OF PHYSICS. 326, 350 (2011).

13. Zhang BC, Cai QY, and Zhan MS, Thermodynamics inducing massive particles' tunneling and cosmic censorship.  Eur. Phys. C 68, 561 (2010).

12. Tan YG and Cai QY, Practical decoy state quantum key distribution with finite resource.  Eur. Phys. D 56, 449 (2010).

11. Zhang BC, Cai QY, You L, and  Zhan MS, Hidden messenger revealed in Hawking radiation: A resolution to the paradox of black hole information loss. Phys. Lett. B 675, 98 (2009).

10. Tan YG, Lu H, and Cai QY, Comment on "Quantum Key Distribution with Classical Bob".  Phys. Rew. Lett. 102, 098901 (2009).

9. Zhang BC, Cai QY, and Zhan MS, The temperature in Hawking radiation as tunneling. Phys. Lett. B 671, 310 (2009).

8. Lu H and Cai QY, QUANTUM KEY DISTRIBUTION WITH CLASSICAL ALICE.  INTERNATIONAL JOURNAL OF QUANTUM INFORMATION. 6, 1195 (2008).

7. Tan YG, Cai QY, and Shi TY, Indistinguishability of orthogonal time-separated bell states.  Chin. Phys. B 17, 3194 (2008).

6. Zhang BC, Cai QY, and Zhan MS, Hawking radiation as tunneling derived from black hole thermodynamics through the quantum horizon.  Phys. Lett. B 665, 260 (2008).

5. Tan YG and Cai QY, Classical correlation in quantum dialogue. INTERNATIONAL JOURNAL OF QUANTUM INFORMATION. 6, 325 (2008).

4. Tan YG, Cai QY, and Shi TY, Quantum overloading cryptography using single-photon nonlocality. Chin. Phys. Lett. 24, 2177 (2007).

3. Cai QY, and Lv H, Quantum key distribution against Trojan horse attacks. Chin. Phys. Lett. 24, 1154 (2007).

2. Cai QY, and Tan YG, Photon-number-resolving decoy-state quantum key distribution.  Phys. Rew. A 73, 032305 (2006).

1. Cai QY, Eavesdropping on the two-way quantum communication protocols with invisible photons. Phys. Lett. A 351, 23 (2006).