完绍龙
姓名:完绍龙
职称:教授
电话:0551-63603081
邮箱:slwan@ustc.edu.cn
网页:http://dsxt.ustc.edu.cn/zj_js.asp?zzid=43
研究方向:
1) 量子场论及应用
2) 量子多体理论
感兴趣的研究领域:
1)量子和非对易场论;2)量子多体理论;3)自旋玻璃理论;4)分数和非阿贝尔统计。
近期关心的物理体系:
1) 石墨烯体系;2) (分数)拓扑绝缘体(超导体);3) 宏观量子态和拓扑态;4) 超冷原子体系。
个人简介:
完绍龙,教授,博士生导师。男,满族,1958年1月生于安徽省合肥市。获中国科学技术大学理论物理学科,理学博士学位;英国牛津大学理论物理博士后。先后赴意大利国际理论物理中心,意大利Padova大学“伽利略”物理系,英国Oxford大学理论物理系,美国Stanford大学物理系,香港中文大学物理系,香港浸会大学物理系等处学习访问。主要从事理论物理学研究,包括:量子场论、量子多体理论等基础理论及其应用研究。主持过国家自然科学基金等研究项目。在Phys. Rev. A,B,C,D,E,Lett.等学术刊物上发表SCI学术论文百余篇,被引用700多次。主要讲授过《量子多体理论》(I)(II),《量子场论》,《量子力学》和《热力学与统计物理学》等多门专业和专业基础课程。
近期主要论文:
1. “Tunneling Magnetoresistance in Junctions Composed of Ferromagnets and Time-Reversal Invariant Topological Superconductors”, New J. Phys., (2016) accepted.
2. “Topological Superfluid and Majorana Zero Modes in Synthetic Dimension”, Sci. Rep., Vol.5, 15927(2015).
3. “A General Time-Periodic Driving Approach to Realize Topological Phases in Cold Atomic Systems”,Sci. Rep., Vol.5, 16197(2015).
4. “Measuring the Spin Polarization of a Ferromagnet: an Application of Time-Reversal Invariant Topological Superconductor”, EuroPhys. Lett., Vol.111, No.4, 47002(2015).
5. “Chiral Viscosity Response in Weyl-Semimetals”, EuroPhys. Lett., Vol.108, No.3, 37007(2014).
6. “Study on the Tunneling Spectroscopy of N −pS Junction and N −hS Junction”, New J. Phys., Vol.16, No.9, 093004(2014).
7. “Topological Phases, Topological Flat Bands, and Topological Excitations in a one-dimensional Dimerized Lattice with Spin-orbit Coupling”, EuroPhys. Lett., Vol.107, No.4, 47007(2014).
8. “Long-range Order in One-dimensional Spinless Fermi Gas with Attractive Dipole-Dipole Interaction”, J. Phys. B47, 135302(2014).
9. “Elastic and Transition Form Factors of the Δ(1232)”, Few Body Systems, 55, 1-33(2014).
10. “Incomplete Rationality vs. Incomplete Strategy in Minority Game Model”, Adv. Mat. Res., 629, 735(2013).
11. “Insights into the γ*N →Δ Transition”, Phys. Rev. C88, 032201(R)(2013).
12. “Topological Superfluid in One-dimensional Ultracold Atomic System with Spin-Orbit Coupling”, Eur. Phys. J. B86, No.8, 347(2013).
13. “Surface Spectral Function of Momentum-dependent Pairing Potentials in a Topological Insulator: Application to Cu_xBi_2Se_3”, J. Phys. C25, 215702(2013) ; Cover Page.
14. “Features and Flaws of a Contact Interaction Treatment of the Kaon”, Phys. Rev. C87, 045207 (2013).
15. “Supersolid in Bose-Bose-Fermi Mixtures subjected to a Square Lattice”, J. Phys. B46, 055302 (2013).
16. “A New Non-Abelian Topological Phase of Cold Fermi Gases in Anisotropic and Spin-Dependent Optical Lattices”, J. Phys. B46, 025301(2013).
17. “Magnetic Impurities in Two-Dimensional Superfluid Fermi Gas with Spin-Orbit Coupling”, Euro. Phys. J. B85, 12, 417(2012).
18. “Topological superfluid of spinless Fermi gases in p-band honeycomb optical lattices with on-site rotation”, Europhys. Lett., Vol.100, No.2, 26003(2012).
19. “Flatbands and Fractional Quantum Spin Hall Effects in the Lattice”, J. Phys. C24, 325502(2012).
20. “Spectrum of Hadrons with Strangeness”, Few Body Systems, Vol.53, No.3-4, 293(2012).
21. “Fractional Charge and Statistics in the Fractional Quantum Spin Hall Effect”, J. of Phys. C24, 165503(2012).
22. “Phase Diagram of Two-dimensional Polarized Fermi Gas with Spin-Orbit Coupling”, Phys. Rev. A85, 023633(2012).
23. “Critical Surface Band Gap of Repulsive Casimir Interaction between Three Dimensional Topological Insulators at Finite Temperature”, Phys. Rev. B85, 115102(2012).
24. “Topological Phase Separation in Trapped Ultracold Fermionic Gases”, J. Phys. B45, 065301(2012).
25. “BCS-BEC Crossover in Mix-dimensional Fermi Gases”, Eur. Phys. J. B83, No.4, 445(2011).
26. “Mott Insulator-superfluid Phase Transition in p-band Triangle Optical Lattices with on-site Rotation”, Eur. Phys. J. B83, No.4, 475 (2011).
27. “Casimir Interaction between Topological Insulators with Finite Surface Gap”, Phys. Rev. B84, 075149(2011).
28. “Orbital Diamagnetism of Weak-doped Bilayer Graphene in Magnetic Field”, J. of Phys. C23, 215306(2011).
29. “Generalized Quantization Condition for Topological Insulators”, Phys. Rev. B83, 205109(2011).
30. “Bose-Hubbard Phase Transition with two- and three-body Interaction in a Magnetic Field”, Phys. Lett. A374, 4364(2010).
31. “Screening-induced Transport at Finite Temperature in Bilayer Graphene”, Phys. Rev. B81, 195409(2010).
32. “Failsafe Modes in Incomplete Minority Game”, Phys. A388, 3892(2009).
33. “Incomplete Strategy Effect in Minority Game”, Phys. A388, 935(2009).
34. “Renormalization of Non-Commutative Phi^3_6 Field Theory in x Space”, Annales Henri Poincare, Vol.9, No.1, 65(2008).
35. “Transport and Magnetic Properties of La_{1.48}Nd_{0.4}Sr_{0.12}CuO_{4}/La_{0.67}Sr_{0.33}MnO_{3} Bilayer”,
Phys. C468, 920(2008).
36. “Conclusive and Perfect Quantum State Transfer with a Single Spin Chain”, Phys. Lett. A372, No.3, 185(2008).
37. “Optimal 1 to M Universal Quantum Cloning via Spin Networks”,
Phys. Rev. A76, 034302(2007).
38. “Structure and Decay Constant of the ρ Meson with Bethe-Salpeter Equation”, Phys. Rev. C76, 025207(2007).
39. “Collective Modes in a Uniform Fermi Gas with Feshbach Resonances”, Phys. Rev. A75, 053608(2007).
40. “Excess Oxygen Doping in Chemically Oxidized La_{2} CuO_{4+
delta} Films Studied by x-ray Diffraction and Raman Scattering”,
Supercond. Sci. and Tech., Vol.20, 870(2007).
41. “Analysis of the Vector Form Factors f^{+}_{K \pi} (Q^{2})
and f^{-}_{K \pi} (Q^{2}) with Light-cone QCD Sum Rules”,
Eur. Phys. J. C50, 781(2007).
42. “Paraconductivity and Magnetoconductivity Approaches to Superconducting Fluctuations in La_{1.6-x} Nd_{0.4}Sr_{x}CuO_{4} Films”,
J. of Phys.: Condense Matter, 19, 196213(2007).
43. “X(1835) as a Baryonium State with QCD Sum Rules”,
J. of Phys. G: Nucl. Part. Phys., 34, No.3, 505(2007).
44. “D_{s}(2317) as a Tetraquark State with QCD Sum Rules
in Heavy Quark Limit”, Nucl. Phys. A778, 22(2006).
45. “Analysis of the Vertexes D^{*}D_{s}K, D^{*}_{s}DK, D_{0}D_{s}K
and D_{s0}DK with the Light-cone QCD Sum Rules”,
Phys. Rev. D74, 014017(2006).
46. “Structure of the D_{s0}(2317) and the Strong Coupling Constant g_{D_{s0}DK} with the Light-cone QCD Sum Rules”,
Phys. Rev. D73, 094020(2006), quoted by Particle Data Group in “Review of Particle Physics”.
47. “Scalar Form-Factor of Proton with Light-Cone QCD Sum Rules”,
Phys. Rev. D73, 094011(2006).
48. “Axial Form-Factor and Induced Pseudoscalar Form-Factor of
the Nucleons”, Eur. Phys. J. C47, 375(2006).
49. “Magnetic Moment of the Pentaquark theta+ (1540) as Diquark-diquark-antiquark state with QCD Sum Rules”,
Eur. Phys. J. C45, 201(2006).
50. “Decay Width of the Pentaquark State theta+ (1540) with QCD Sum Rules”, Phys. Rev. D72, 034012(2005).
51. “Analysis the 0++ Nonet Mesons as Four-Quark States with the QCD
Sum Rules”, J. Phys. G: Nucl. Part. Phys., 31, No.8, 971(2005).
52. “Decay Constant of the Pseudoscalar Charmonium and Bottomoniun”,
Phys. Lett. B615, 79(2005).
53. “Magnetic Moment of the Pentaquark theta+(1540) with QCD Sum Rules”,
J. Phys. G: Nucl. Part. Phys., 31, No.7, 703(2005).
54. “Directional Ordering of Fluctuations in a 2-dimensional Compass Model”, Phys. Rev. Lett. 93, 207201(2004).
55. “Decay Constants of the Pseudoscalar Mesons in the Framework of the Coupled Schwinger-Dyson Equation and Bethe-Salpeter Equation”,
Nucl. Phys. A744, 156(2004) , cited by CLEO Collaboration.
56. “Structures of the f0(980), a0(980) Mesons and the Strong Coupling Constants gf0 K+ K-, ga0 K+ K- with the Light-cone QCD Sum Rules”,
Eur. Phys. J. C37, 223(2004), cited in“Review of Particle Physics”by Particle Data Group (http://pdg.lbl.gov/) pp565,567.
57. “Decay Constant of the pion and B Mesons with Bethe-Salpeter Equation”, Phys. Lett. B584, 71(2004).
58. “Dynamical Symmetry Breaking and Confinement with Flat Bottom Potential”, Phys. Lett. B536, 241(2002).
59. “Nonlocal Quark Vacuum Condensate”, Phys. Lett. B498, 195(2001).
60. “An Analytical Systemate Method of Two-State Dissipative System”,
Phys. Rev. E61, Part A, 4795(2000).