华北电力大学数理学院

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物理论著列表

发文时间: 2020-01-10 撰稿人：

1．Y. X. Zhen and B. Fang, Nonlinear vibration of fluid-conveying single-walled carbon nanotubes under harmonic excitation, International Journal of Non-Linear Mechanics, 76(2015), 48-55.

2. Y.X. Zhen, Wave propagation in fluid-conveying viscoelastic single-walled carbon nanotubes with surface and nonlocal effects, Physica E: Low-dimensional Systems and Nanostructures, 86(2017), 275-279.

3. Y.X. Zhen and L. Zhou, Wave propagation in fluid-conveying viscoelastic carbon nanotubes under longitudinal magnetic field with thermal and surface effect via nonlocal strain gradient theory, Modern Physics Letters B, 31(8)(2017), 1750069.

4. Y. Tang, Y.X. Zhen and B. Fang, Nonlinear vibration analysis of a fractional dynamic model for the viscoelastic pipe conveying fluid. Applied Mathematical Modelling, 56(2018), 123-136.

5. Y.X. Zhen, S.L. Wen and Y. Tang. Free vibration analysis of viscoelastic nanotubes under longitudinal magnetic field based on nonlocal strain gradient Timoshenko beam model. Physica E: Low-dimensional Systems and Nanostructures, 105(2019),116-124.

6. Y.X. Zhen, Vibration and instability analysis of double-carbon nanotubes system conveying fluid, Journal of Nanomechanics and Micromechanics, 6(4)(2016),04016008.

7. Wenjie Wang, Jing Chen, Jiajun Deng*, Jiantao Che, Bing Hu and Xin Cheng, Effect of Sb content on anisotropic magnetoresistance in a (Ga, Mn)(As, Sb) ferromagnetic semiconductor thin film, RSC Adv., 9（2019）, 10776.

8. Ya-Ya Wang, Jia-Jun Deng*, Xin Wang, Jian-Tao Che and Xun-Lei Ding, Small stoichiometric (MoS2) n clusters with the 1T phase, Physical Chemistry Chemical Physics , 20（2018）, 6365-6373.

9. J. Deng, J. T. Che, J. Chen, W. J. Wang, B. Hu, H. L. Wang, and J. H. Zhao, Effect of Sb incorporation on structure and magnetic properties of quaternary ferromagnetic semiconductor (Ga, Mn)(As, Sb) thin films , JOURNAL OF APPLIED PHYSICS 114(2013), 243901.

10. L. Chen , H. Z. Li, R. S. Han, Magnetic impurity resonance states fordifferent pairing symmetries in twisted bilayer grapheme, J. Phys.: Condens. Matte r, 31(2019), 065601.

11. L. Chen , B. Hu, R. S. Han, Thermodynamics of two-impurity Anderson model with Dzyaloshinskii–Moriya Interaction, J. Phys.: Condens. Matte r, 30(2018), 025601.

12. R. S. Han., A. Leo-Macias, D. Zerbino, B. Contreras-Moreira, U. Bastolla, A. R. Ortiz，An efficient conformational sampling method for homology modeling，PROTEINS: Structure, Function, and Bioinformatics, 71（2008）, 175-188。

13. R. S. Han, Z. J. Lin, K. L. Wang, Exact solution for the two-site Holstein model, Phys. Rev. B , 65 (17)（ 2002）, 174303-174307.

14. R. S. Han, X. L. Gao, K. L. Wang, T. Z. Li, Ground state of a dissipative two-level system, Phys. Rev. B , , 63（ 2000）, 15579-15588.

15. Zhi Xiao, Lorentz violating Scalar Hamiltonian and Equivalence Principle in static metric, Phys.Rev. D, 98（2018），035018.

16. R. Lehnert, W.M.Snow, Zhi Xiao and Rui Xu, Constraining spacetimenonmetricity with neutron spin rotation in Liquid He-4, Phys.Lett. B 772(2017),865.

17. Zhi Xiao, Spectra of Lorentz-violating Dirac bound states in a cylindrical well, Phys.Rev. D, 94(2016), 115020.

18. Zhi Xiao, The Impact of Lorentz Violation on the Klein Tunneling Effect, Phys.Rev.D 93(2016), 125022.

19. Zhi Xiao and Bo-Qiang Ma, Constraints on Lorentz invariance violation from gamma-ray burst GRB090510, Phys.Rev.D 80(2009), 116005.

20. Zhen-Hua Zhang, Systematic investigation of the high-K isomers and the high-spin rotational bands in the neutron-rich Nd and Sm isotopes by a particle-number conserving method, Physical Review C 98 (2018) 034304.

21.Zhen-Hua Zhang, Peng-Wei Zhao, Jie Meng, Jin-Yan Zeng, En-Guang Zhao and Shan-Gui Zhou, Nuclear superfluidity for antimagnetic rotation in ¹⁰⁵Cd and ¹⁰⁶Cd, Physical Review C 87 (2013) 054314.

22.Zhen-Hua Zhang, Jie Meng, En-Guang Zhao and Shan-Gui Zhou, Rotational properties of the superheavy nucleus ²⁵⁶Rf and its neighboring even-even, nuclei in particle-number conserving cranked shell model, Physical Review C 87 (2013) 054308.

23.Zhen-Hua Zhang, Xiao-Tao He, Jin-Yan Zeng, En-Guang Zhao and Shan-Gui Zhou, Systematic investigation of the rotational bands in nuclei with Z~100 using a particle-number conserving method based on a cranked shell model, Physical Review C 85 (2012) 014324.

24.Zhen-Hua Zhang, Jin-Yan Zeng, En-Guang Zhao and Shan-Gui Zhou, Particle-number conserving analysis of rotational bands in ²⁴⁷^;²⁴⁹Cm and ²⁴⁹Cf, Physical Review C 83 (2011) 011304(R).

25. Y.-X.Zhao, M.-M.Wang, Y.Zhang, X.-L. Ding, S.-G.He,Activity of Atomically Precise Titania Nanoparticles in CO Oxidation, AngewandteChemie International Edition 58 (2019), 8002-8006.

26. X.-L.Ding, D.Wang, X.-N.Wu, Z.-Y.Li, Y.-X.Zhao, S.-G.He, High Reactivity of Nanosized Niobium Oxide Cluster Cations in Methane Activation: A Comparison with Vanadium Oxides, Journal of Chemical Physics 143 (2015), 124312.

27. X.-L.Ding, Z.-Y.Li, J.-H.Meng, Y.-X.Zhao, S.-G.He, Density-Functional Global Optimization of (La₂O₃) _N Clusters, Journal of Chemical Physics 137 (2012), 214311.

28. X.-L.Ding, X.-N.Wu, Y.-X.Zhao, S.-G.He, C-H Bond Activation by Oxygen-Centered Radicals over Atomic Clusters, Accounts of Chemical Research 45 (2012), 382-390.

29. X.-L.Ding, Y.-X.Zhao, X.-N.Wu, Z.-C.Wang, J.-B.Ma, S.-G.He, Hydrogen-Atom Abstraction from Methane by Stoichiometric Vanadium-Silicon Heteronuclear Oxide Cluster Cations, Chemistry - A European Journal 16 (2010), 11463-11470.

30. X.-L.Ding, L.De Rogatis, E.Vesselli, A.Baraldi, G.Comelli, R.Rosei, L.Savio, L.Vattuone, M.Rocca, P.Fornasiero, F.Ancilotto, A.Baldereschi, M. Peressi, Interaction of Carbon Dioxide with Ni(110): A Combined Experimental and Theoretical Study, Physical Review B 76 (2007), 195425.

31. X.-L.Ding,Z.-Y.Li, J.-L.Yang, J.-G.Hou, Q.-S.Zhu, Adsorption Energies of Molecular Oxygen on Au Clusters, Journal of Chemical Physics 120 (2004), 9594-9600.

32. X.-L.Ding, Y.-X.Zhao,X.-N.Wu, Z.-C. Wang, J.-B.Ma, S.-G. He, Hydrogen-Atom Abstraction from Methane by Stoichiometric Vanadium-Silicon Heteronuclear Oxide Cluster Cations, Chemistry - A European Journal 16 (2010), 11463-11470.

33. Ma dexiang, Du zengji, Ge weigao, Existence and iteration of monotone positive solutions for multipoint boundary value problem with p-Laplacian operator, Computers & Mathematics with Applications,50(5-6)(2005), 729-739.

34. Liang Chen, Ya-Li Zhang, and Rong-Sheng Han, Visualizing pairing symmetry in nematic superconductors using spin-polarized spectroscopy of magnetic impurities, J. Phys.: Condens. Matter 31(2019), 505603.

35. Liang Chen, Wei-Wei Zhao and Rong-Sheng Han, Resonance states near a quantum magnetic impurity in single-layer FeSe superconductors with d-wave symmetry, J. Phys.: Condens. Matter 30(2018), 305603.

36. Liang Chen and Ye-Qi Zhang, Quantum steering in magnetic Heisenberg models at finite temperature, EPL 120(2017), 60007.

37. Liang Chen, Jinhua Sun, Ho-Kin Tang, Hai-Qing Lin, The Kondo temperature of a two-dimensional electron gas with Rashba spin-orbit coupling, J. Phys.: Condens. Matter 28(2016), 396005.

38.Ji-Cai Liu, Catalin Miron, Hans Ågren, Sergey Polyutov and Faris Gel’mukhanov, Resonant X-ray second harmonic generation in atomic gasses, Phys. Rev. A 100, 063403 (2019).

39.Ji-Cai Liu, Vinícius Vaz da Cruz, Sergey Polyutov, Alexander Föhlish, and Faris Gel’mukhanov, Recoil-induced dissociation of hard X-ray photoionization, Phys. Rev. A 100, 053408 (2019).

40.Denis Céolin, Ji-Cai Liu, Vinícius Vaz da Cruz, Hans Ågren, Loïc Journel, Renaud Guillemin, Tatiana Marchenko, Rajesh K. Kushawaha , Maria Novella Piancastelli, Ralph Püttner, Marc Simon, and Faris Gel’mukhanov, Recoil-induced ultrafast molecular rotation probed by dynamical rotational Doppler effect, PNAS 116(11), 4877-4882 (2019).

41.Q. Miao, J.-C. Liu, H. Ågren, J.-E. Rubensson and F. Gel'mukhanov, Dissociative x-ray lasing, Phys. Rev. Lett. 109, 233905 (2012).

42.C. Buth, J.-C. Liu, M. H. Chen, J. P. Cryan, L. Fang, J. M. Glownia, M. Hoener, R. N. Coffee, and N. Berrah, Ultrafast absorption of intense x rays by nitrogen molecules, J. Chem. Phys 136, 214310 (2012).

43.J.-C. Liu, M. C. Kohler, C. H. Keitel and K. Z. Hatsagortsyan, Coherent x-ray generation from below-threshold harmonics, Phys. Rev. A 84, 063817 (2011).

44.J.-C. Liu, C. Nicolas, Y. Sun, R. Flammini, P. O’Keeffe, L. Avaldi, P. Morin, V. Kimberg, N. Kosugi, F. Gel'mukhanov, and C. Miron, Multimode resonant Auger scattering from the ethylene molecule, J. Phys. Chem. B 115, 5103 (2011).

45.G. J. Tian, J.-C. Liu, Y. Luo, Density-Matrix Approach for the Electroluminescence of Molecules in a Scanning Tunneling Microscope, Phys. Rev. Lett. 106, 177401 (2011).

46.O. Travnikova, J.-C. Liu, A. Lindblad, C. Nicolas, J. Soderstrom, V. Kimberg, F. Gel'mukhanov, and C. Miron, Circularly Polarized X-Rays: Another Probe of Ultrafast Molecular Decay Dynamics, Phys. Rev. Lett. 105, 233001 (2010).

47.J.-C. Liu, Y.-P. Sun, C.-K. Wang and F. Gel'mukhanov, Auger effect in the presence of strong x-ray pulses, Phys. Rev. A 81, 043412 (2010).

48.Y.-P. Sun, J.-C. Liu, and F. Gel'mukhanov, Propagation of strong x-ray pulse: Pulse compression, stimulated Raman scattering, amplified spontaneous emission, lasing without inversion and four-wave mixing, Phys. Rev. A 81, 013812 (2010).

49.S. Gavrilyuk, J.-C. Liu, K. Kamada, H. Ågren, and F. Gel'mukhanov, Optical limiting for microsecond pulses, J. Chem. Phys. 130, 054114 (2009).

50.Y. Velkov, Y. Hikosaka, E. Shigemasa, T. Kaneyasu, Y. Tamenori, J.-C. Liu and F. Gel'mukhanov, X-ray-absorption spectroscopy beyond the natural width measured in partial Auger yield mode, Phys. Rev. A 79, 022508 (2009).

51.J.-C. Liu, Y. Velkov, Z. Rinkevicius, H. Agren, and F. Gel'mukhanov, Symmetry forbidden X-ray Raman scattering induced by a strong infrared-laser field, Phys. Rev. A 77, 043405 (2008).

52.Y. Hikosaka, Y. Velkov, E. Shigemasa, T. Kaneyasu, Y. Tamenori, J.-C. Liu, and F. Gel'mukhanov, X-ray absorption measured in resonant Auger scattering mode, Phys. Rev. Lett. 101, 073001 (2008).

53.J.-C. Liu, C.-K. Wang, and F. Gel'mukhanov, Dynamics of multilevel molecules and pulse propagation beyond rotating wave approximation near two-photon resonance, Phys. Rev. A 76, 043422 (2007).

54.J.-C. Liu, C.-K. Wang, and F. Gel'mukhanov, Optical limiting of short laser pulses, Phys. Rev. A 76, 053804 (2007).

55.Li-Gang Cao， Shi-Sheng Zhang, H. Sagawa， Quenching factor of Gamow-Teller and spin dipole giant resonances，Phys. Rev. C 100 (2019),054324.

56.Hong Lv, Shi-Sheng Zhang, Zhen-Hua Zhang, Yu-Qian Wu, Jiang Liu, Li-Gang Cao， Giant Monopole Resonance and Nuclear Incompressibility of Hypernuclei，Phys. Lett, Vol. 35, No. 6 (2018)， 062102.

57.Hong Lv, Shi-Sheng Zhang, Zhen-Hua Zhang, Yu-Qian Wu, Li-Gang Cao, Pygmy and Giant Dipole Resonances in Proton-Rich Nuclei ^17,18Ne， Chin. Phys. Lett, Vol. 34, No. 8 (2017),082101.

58.Xavier Roca-Maza, Li-Gang Cao, G. Colo, H. Sagawa, Fully self-consistent study of charge-exchange resonances and the impacton the symmetry energy parameters, Phys. Rev. C94 (2016), 044313.

59.S. S. Zhang, Li-Gang Cao, U. Lombardo, P. Schuck,Medium polarization in asymmetric nuclear matter, Phys. Rev. C 93 (2016), 044329.

60.Li-Gang Cao, Xavier Roca-Maza, G. Colo, H. Sagawa, Constraints on the neutron skin and symmetry energy from the anti-analog giant dipole resonance in Pb-208, Phys. Rev. C92 (2015), 034308.

61.Li-Gang Cao, G. Colo, H. Sagawa, and P. F.Bortignon, Properties of Single-particle States in a Fully Self-consistent Particle Vibration Coupling Approach, Phys. Rev. C 89 (2014), 044314.

62.Li-Gang Cao, H. Sagawa, G. Colo, Microscopic Study on Isoscalar Giant Monopole Resonance in Cd, Sn and Pb Isotopes, Phys. Rev. C86 (2012), 054313.

63.Li-Gang Cao, H. Sagawa, G. Colo, Effects of the Tensor Correlations on Low-lying Collective Statesin Finite Nuclei, Phys. Rev.C83 (2011), 034324.

64.Li-Gang Cao, G. Colo, H. Sagawa, Spin and Spin-Isospin instabilities andLandau parameters of Skyrme interactions with tensor correlations, Phys. Rev. C81 (2010), 044302.

65.Y. Z. Wang, Li-Gang Cao, J. Z. Gu, Z. Y. Hou, Tensor force effect on incompressibility of bubble nucleus, International Journal of Modern Physics E , Vol. 23, No. 12, (2014), 1450082.

66.PeiWei Wen, Li-Gang Cao, J. Margueron, H. Sagawa, Spin-isospin Response in Finite Nuclei from an Extended Skyrme Interaction, Phys. Rev. C89 (2014), 044311.

67.PeiWei Wen, Li-Gang Cao, Charge Exchange Response Functions of Finite Nucleus by an Extended Skyrme Interaction, International Journal of Modern Physics E, Vol. 23, No. 6,(2014), 1460001.

68.Gianluca Colo, Li-Gang Cao, Nguyen Van Giai, Luigi Capelli, Self-consistent RPA calculations with Skyrme-type interactions:the skyrme_rpa program, Comp. Phys. Commun., 184 (2013),142.

69.Ding Yang, Li-Gang Cao, Yuan Tian, Zhong-Yu Ma, Importance of self-consistency inrelativistic continuum random-phase approximation calculations, Phys. Rev.C82 (2010) , 054305.

70.S. S. Zhang, Li-Gang Cao, U. Lombardo, E. G. Zhao, S. G. Zhou, Isospin-dependent pairing interaction from nuclear mattercalculations, Phys. Rev. C81 (2010), 044313.

71.Ding Yang,Li-Gang Cao, Zhong-Yu Ma, Collective Multipole excitations of exotic nuclei in relativisticcontinuum random phase approximation , Chin. Phys. C37 (2013) ,124102.

72.Ding Yang, Li-Gang Cao, Zhong-Yu Ma, Nuclear Incompressibility and Isoscalar GiantDipole Resonance in Relativistic Continuum Random PhaseApproximation, Chin. Phys. Lett.30 (2013), 052103. （

73.Pei-wei Wen, Li-Gang Cao,Spin-flip Response Function of Finite Nuclei in a Fully Self-consistent RPA Approach, Chin. Phys. Lett. 30(2013), 052101.

74.Ding Yang, Li-Gang Cao, Zhong-Yu Ma,Fully Self-consistency in Relativistic Random Phase Approximation, Chin. Phys. Lett. 29 (2012) , 112101.

75.Yang Ding, Cao Li-Gang, MA Zhong-Yu,Relativistic Continuum Random Phase Approximation andApplications II. Applications, Commun. Theor. Phys. 53 (2010) , 723.

76.Yang Ding, Cao Li-Gang, MA Zhong-Yu, Relativistic Continuum Random Phase Approximation andApplications I. Formalism, Commun. Theor. Phys. 53 (2010), 716.

77.A. Carbone, G. Colo, A. Bracco, Li-Gang Cao, P. F. Bortignon,F. Camera, O.Wieland, Constraints on the symmetry energy and on neutron skins fromthe pygmy resonances in ⁶⁸Ni and ¹³²Sn, Phys. Rev. C81 (2010) , 041301(R).

78.E. Khan, N. Paar, D. Vretenar, Li-Gang Cao, H. Sagawa, and G.Colo,Incompressibility of finite fermionic systems: stable and exoticatomic nuclei,Phys. Rev. C87 (2013), 064311.

79.X. Roca-Maza, M. Brenna, B. K. Agrawal, P. F. Bortignon, G. Colo,Li-Gang Cao, N. Paar, and D. Vretenar, Giant Quadrupole Resonances in 208Pb, the nuclear symmetry energy and the neutron skin thickness, Phys. Rev. C87 (2013), 034301.

80.J. M. Dong, W. Zuo, J. Z. Gu, Y. Z. Wang, Li-Gang Cao, and X.Z. Zhang, Effects of tensor interaction on pseudospin energy splitting and shell correction,Phys. Rev. C84 (2011), 014303.

81. Xiu-fei Li, Z.Zhang*,Roberge-Weiss transitions at different center symmetry breaking patterns in a Z3-QCD model, Phys.Rev.D 100, 074026(2019).

82. Z.Zhang*，Qing Miao，Dual condensates at finite isospin chemical potential, Phys.Lett.B，756 (2016),670-676.

83. Z.Zhang，TeijiKunihiro，Combined chiral and diquark fluctuations along QCD critical line and enhanced baryon production with parity doubling，Eur.Phys.J.A(2016)52:230.

84. Z.Zhang*，Hai-Peng Su，Fate of separate chiral transitions at finite mu(I) under the influence of mismatched vector interactions，Phys.Rev.D 89, 054020 (2014).

85. Z.Zhang，Correction to the chiral magnetic effect from axial-vector interaction，Phys.Rev.D85，114028(2012).

86. Z.Zhang*，TeijiKunihiro，Roles of axial anomaly on neutral quark matter with color superconducting phase，Phys.Rev.D 83，114003（2011）.

87. Z.Zhang*，TeijiKunihiro，Vector interaction, charge neutrality,and multiple chiral critical-point structures，Phys. Rev. D 80, 014015 (2009).

88. Z.Zhang*，Kenji Fukushima，TeijiKunihiro，Number of QCD critical points with neutral color superconductivity，Phys.Rev.D79, 014004 (2009).

89. Z.Zhang*，Yu-Xin Liu，Coupling of pion condensate, chiral condensate, and Polyakov loop in an extended NJL model，Phys.Rev.C 75, 064910(2007).

90. Z.Zhang*，Yu-xin Liu，Two-flavor QCD phases and condensates at finite isospin chemical potential，Phys.Rev.C75, 035201 (2007).

91.Ye-Qi Zhang and Yong-Tao Sun,Establishing quantum steerability on cavity arrays coupled by optical fibers with open boundary conditions, Quantum Information Processing,18 (2019), 87

92.Ye-Qi Zhang, Qi-Liang He, and Jing-Bo Xu, Enhancing quantum discord in superconducting qubit systems by a controllable electromagnetic field, Quantum Information Processing,12 (2013), 1335-1350

93.Mu, Qingxia; Zhao, Xinyu; Yu, Ting Memory-effect-induced macroscopic-microscopic entanglement， Physical Review A , 94(2016)，012334(1-9).

94.Mu, QingXia; Ma, Yongong; Zhou，Ling Output squeezing and entanglementgeneration from a single atom with respect to a low-Q cavity, Phys. Rev. A ，81(2010),024301(1-4)

95． W Jian, W Li, X Wu and M. F. Zhou, Double C–H bond activation of acetylene by atomic boron in forming aromatic cyclic-HBC₂BH in solid neon, Chemical Science, 8(2017), 4443-4449.

96. W Li, Y. L Zeng, X. Y. Li, Z. Sun and L. P. Meng, Insight into the pseudo π-hole interactions in the M₃H₆···(NCF)_n (M = C, Si, Ge, Sn, Pb; n = 1, 2, 3) complexes, Physical Chemistry Chemical Physics, 18(2016), 24672-24680.

97. W Li, Y. L. Zeng, X. Y. Li, Z. Sun and L. P Meng, The Competition of Y…O and X…N Halogen Bonds to Enhance the Group V σ-hole Interaction in the NCY···O=PH₃···NCX and O="PH3···NCX···NCY (X, Y = F, Cl, and Br) Complexes, Journal of Computational Chemistry, 36(2015), 1349-1358.

98. W Li, Y. L Zeng, X. Y Zhang, Z Sun and L. P. Meng, The enhancing effects of group V σ-hole interactions on the F···O halogen bond, Physical Chemistry Chemical Physics, 16(2014), 19282-19289.

99. Fangchao Lu, Ning Tang, Liangliang Shang, Hongming Guan, Fujun Xu, Weikun Ge, and Bo Shen， Magneto-transport Spectroscopy of the First and Second Two-dimensional Subbands in Al_0.25Ga_0.75N/GaN Quantum Point Contacts，Scientific Reports, 2017, 7, 42974.

100. Fangchao Lu, Ning Tang^(*), Shaoyun Huang, Marcus Larsson, Ivan Maximov, Mariusz Graczyk, Junxi Duan, Sidong Liu, Weikun Ge, Fujun Xu, and Bo Shen， Enhanced Anisotropic Effective g Factors of an Al_0.25Ga_0.75N/GaN Heterostructure Based Quantum Point Contact, Nano Letters, 2013，13(10), 4654-4658 (2013).