发表论文:https://www.scopus.com/authid/detail.uri?authorId=57199894518
https://xs.xiayige.org/citations?hl=zh-CN&user=tb7UJpoAAAAJ
2020年
[1]. Q Zhao, S Aqiqi, JF You, M Kria, KX Guo, E Feddi, ZH Zhang*, JH Yuan*,Influence of position-dependent effective mass on the nonlinear optical properties in AlxGa1− xAs/GaAs single and double triangular quantum wells, Physica E: Low-dimensional Systems and Nanostructures. 115 (2020) 113707.
2019年
[2]. Z.-H. Zhang*, J.-H. Yuan*, K.-X. Guo, E. Feddi, Effect of Conduction Band Non-Parabolicity on the Nonlinear Optical Properties in GaAs/Ga1−xAlxAs Double Semi-V-shaped Quantum Wells, Materials. 12 (2019) 78.
[3]. Z.-H. Zhang*, K.-X. Guo, J.-H. Yuan*, Influence of the position dependent effective mass on the nonlinear optical properties in semiparabolic and parabolic quantum well with applied magnetic field, Physica E: Low-Dimensional Systems and Nanostructures. 108 (2019) 238–243.
[4]. Jun-Sheng Li, Zhi-Hai Zhang, You-Wen Liu* and Jian-Hui Yuan*,Simultaneous effects of hydrostatic pressure,temperature and aluminum concentration on nonlinear optical rectifification, second- and third-harmonic generation in a GaAs/Ga1-xAlxAs morse quantum well, International Journal of Modern Physics B, 33 (2019) 1950009
[5]. Camilleri Emily; Korza George; Green Joshua; Yuan Jianhui; Li Yong-Qing; Caimano Melissa J and Setlow Peter*, Properties of Aged Spores of Bacillus subtilis,Journal of Bacteriology,201(2019) e00231-19[美国东卡罗莱纳大学访学成果]
[6]. S. Ghosh,G. Joseph,G. Korza,L. He,J.‐H. Yuan,W. Dong,B. Setlow,Y.‐Q. Li,P.B. Savage and P. Setlow*, Effects of the microbicide ceragenin CSA-13 on and properties of Bacillus subtilis spores repared on two very different media,Journal of Applied Microbiology,127 (2019) 109-120[美国东卡罗莱纳大学访学成果]
[7]. Jin-Feng You, Qiang Zhao, Zhi-Hai Zhang*, Jian-Hui Yuan, Kang-Xian Guo and Elmustapha Feddi,The effect of temperature, hydrostatic pressure and magnetic field on the nonlinear optical properties of AlGaAs/GaAs semi-parabolic quantum well,International Journal of Modern Physics B, 33(2019)1950325
2018年
[8]. L.-L. Wang, N. Chen, S. Bin, Y.-H. Mo, L.-L. Ma, G.-L. He, Z.-H. Zhang*, J.-H. Yuan*, Effect of conduction band parabolicity on the spectrum and binding energy of a hydrogenic impurity in GaAs spherical quantum dots, Philosophical Magazine. 98 (2018) 899–910.
[9]. R.-Y. Yan, J. Tang, Z.-H. Zhang*, J.-H. Yuan*, Optical properties in GaAs/AlGaAs semiparabolic quantum wells by the finite difference method: Combined effects of electric field and magnetic field, International Journal of Modern Physics B. 32 (2018) 1850159.
[10]. J.-H. Yuan*, L.-L. Wang, Z.-Y. Xiong, N. Chen, Z.-H. Zhang*, Y.-X. Zhao*, Hydrogenic impurity effect on the optical nonlinear absorption properties of spherical quantum dots with a parabolic potential, European Physical Journal Plus. 133 (2018) 395.
[11]. Z.-H. Zhang*, J.S. Li, J. Tang, L.L. Yang, K.-X. Guo, J.-H. Yuan*, Binding energy and the third-order nonlinear optical susceptibility of an exciton in GaAs/AlGaAs core/shell spherical quantum dot, J Opt. 47 (2018) 445–455.
[12]. Z.-H. Zhang*, J.-H. Yuan*, K.-X. Guo, The Combined Influence of Hydrostatic Pressure and Temperature on Nonlinear Optical Properties of GaAs/Ga0.7Al0.3As Morse Quantum Well in the Presence of an Applied Magnetic Field, Materials. 11 (2018) 668.
2017年
[13]. 陈斯颖,陈 妮,宾 松,吴智辉,袁建辉†,张志海†,球形壳核量子点中杂质能谱及其非线性光学吸收性质的研究,广西物理 GUANGXI PHYSICS,38(2017)1-7.(学生一作陈斯颖)
[14]. Zhenmei Chen1, Ni Chen1, Yunhai Mo1, Zhihui Wu1, Jianhui Yuan1*, Zhihai Zhang2*,The Ground Binding Energy of a Center Hydrogenic Impurity in Spherical GaAs Quantum Dots,Modern Physics 现代物理, 2017, 7(4), 155-162.(学生一作陈真梅,科技核心)
2016年
[15]. X. Liu, L. Zou, C. Liu, Z.-H. Zhang*, J.-H. Yuan*, The nonlinear optical rectification and second harmonic generation in asymmetrical Gaussian potential quantum well: Effects of hydrostatic pressure, temperature and magnetic field, Optical Materials. 53 (2016) 218–223.
[16]. J.-H. Yuan*, N. Chen, H. Mo, Y. Zhang, Z.-H. Zhang*, Tunneling Negative Magnetoresistance via delta Doping in a Graphene-Based Magnetic Tunnel Junction, Chinese Physics Letters. 33 (2016) 037302.
[17]. J.-H. Yuan*, N. Chen, Y. Zhang, H. Mo, Z.-H. Zhang*, Electric field effect on the second-order nonlinear optical properties in semiparabolic quantum wells, Physica E: Low-Dimensional Systems and Nanostructures. 77 (2016) 102–107.
[18]. J.-H. Yuan*, N. Chen, Z.-H. Zhang, J. Su, S.-F. Zhou, X. Lu, Y.-X. Zhao*, Energy spectra and the third-order nonlinear optical properties in GaAs/AlGaAs core/shell quantum dots with a hydrogenic impurity, Superlattices and Microstructures. 100 (2016) 957–967.
[19]. Z.-H. Zhang*, G. Zhuang, K.-X. Guo, J.-H. Yuan*, Donor-impurity-related optical absorption and refractive index changes in GaAs/AlGaAs core/shell spherical quantum dots, Superlattices and Microstructures. 100 (2016) 440–447.
[20]. Z.-H. Zhang*, L. Zou, K.-X. Guo, J.-H. Yuan*, The nonlinear optical rectification in asymmetrical and symmetrical Gaussian potential quantum wells with applied electric field, Optics Communications. 359 (2016) 316–321.
[21]. Z.-H. Zhang*, L. Zou, K.-X. Guo, J.-H. Yuan*, The effect of hydrostatic pressure, temperature and magnetic field on the nonlinear optical properties of asymmetrical Gaussian potential quantum wells, Physica E: Low-Dimensional Systems and Nanostructures. 77 (2016) 90–96.
2015年
[22]. J.-H. Yuan*, N. Chen, H. Mo, Y. Zhang, Z.-H. Zhang*, The second harmonic generation in symmetrical and asymmetrical Gaussian potential quantum wells with applied electric field, Superlattices and Microstructures. 88 (2015) 389–395.
[23]. J.-H. Yuan*, Y. Zhang, X. Guo, J. Zhang, H. Mo*, The spin polarization and transport properties at the surface of a three-dimensional topological insulator, Solid State Communications. 206 (2015) 31–37.
[24]. J.-H. Yuan*, Y. Zhang, X. Guo, J. Zhang, H. Mo*, The low-lying states and optical absorption properties of a hydrogenic impurity in a parabolic quantum dot modulation by applied electric field, Physica E: Low-Dimensional Systems and Nanostructures. 68 (2015) 232–238.
[25]. J.-H. Yuan*, Y. Zhang, H. Mo, N. Chen, Z. Zhang*, The second-harmonic generation susceptibility in semiparabolic quantum wells with applied electric field, Optics Communications. 356 (2015) 405–410.
[26]. J.-H. Yuan*, Z.-H. Zhang*, Comment on “Linear and nonlinear optical absorption coefficients and refractive index changes in asymmetrical Gaussian potential quantum wells with applied electric field,” Superlattices and Microstructures. 88 (2015) 1–4.
[27]. Z.-H. Zhang*, L. Zou, C. Liu, J.-H. Yuan*, Electric field effect on the nonlinear optical properties in asymmetrical Gaussian potential quantum wells, Superlattices and Microstructures. 85 (2015) 385–391.
2014年
[28]. J.-H. Yuan*, Y. Zhang, M. Li, Z.-H. Wu, H. Mo*, Hydrogenic impurity states in a parabolic quantum dot: Hydrostatic pressure and electric field effects, Superlattices and Microstructures. 74 (2014) 1–10.
2013年
[29]. J. Yuan*, Y. Zhang, J.Zhang, Z. Cheng, Electron transport in a ferromagnetic/normal/ferromagnetic tunnel junction based on the surface of a topological insulator, European Physical Journal B. 86 (2013) 36.
[30]. J.-H. Yuan*, Y. Zhang, D. Huang, J. Zhang, X. Zhang, Exciton effects on dipole-allowed optical absorptions in a two-dimensional parabolic quantum dot, Journal of Luminescence. 143 (2013) 558–561.
[31]. J.-J. Zhang*, J.-H. Yuan, J.-P. Zhang, Z. Cheng, Quantum entanglement and phase transition in a two-dimensional photon-photon pair model, Physica B-Condensed Matter. 408 (2013) 16–21.
2012年
[32]. Yuan Jian-Hui*, Cheng Ze, Zhang Jian-Jun, Zeng Qi-Jun, Zhang Jun-Pei, Charge transport and shot noise on the surface of a topological insulator with a magnetic modulation, Chinese Physics B. 21 (2012) 047203.
[33]. Zhang Jian-Jun*, Yuan Jian-Hui, Zhang Jun-Pei, Cheng Ze, Bose-Einstein Condensation of Photons and Photon Pairs, Communications in Theoretical Physics. 58 (2012) 155–159.
[34]. Zhang Jian-Jun*, Yuan Jian-Hui, Zhang Jun-Pei, Cheng Ze, Phase Transition and Superfluid of Photons and Photon Pairs in a Two-Dimensional Optical Microcavity, Communications in Theoretical Physics. 58 (2012) 672–680.
[35]. Zhang Jian-Jun*, Cheng Ze, Yuan Jian-Hui, Zhang Jun-Pei, Temperature dependence of the energy-level shift induced by the Bose-Einstein condensation of photons, Chinese Physics B. 21 (2012) 090502.
[36]. Q.-J. Zeng*, Z. Cheng, J.-H. Yuan, Bose–Einstein condensation of a q-deformed boson system in a harmonic potential trap, Physica A: Statistical Mechanics and Its Applications. 391 (2012) 563–571.
[37]. Q.J. Zeng*, Z. Cheng, J.H. Yuan, Generalization of the radiation laws of a Kerr nonlinear blackbody, European Physical Journal D. 66 (2012) 50.
[38]. J.-J. Zhang*, J.-H. Yuan, J.-P. Zhang, Z. Cheng, Temperature dependence of atomic decay rate induced by the BEC of photons, Physica E: Low-Dimensional Systems and Nanostructures. 45 (2012) 177–182.
[39]. J.P. Zhang*, J.H. Yuan, Electron transport with tunable ferromagnetic barriers on the surface of topological insulators, European Physical Journal B. 85 (2012) 100.
2011年
[40]. Yuan Jian-Hui*, Zhang Jian-Jun, Zeng Qi-Jun, Zhang Jun-Pei, Cheng Ze, Confined State and Electronic Transport in an Artificial Graphene-Based Tunnel Junction, Communications in Theoretical Physics. 56 (2011) 1135–1139.
[41]. Zhang Jian-Jun*, Yuan Jian-Hui, Zeng Qi-Jun, Zhang Jun-Pei, Microscopic Theory of Nonlinear Spin Waves in Ferromagnets, Communications in Theoretical Physics. 56 (2011) 173–176.
[42]. M. Yin*, Z. Cheng, Q.-J. Zeng, J.-H. Yuan, Thermodynamic Properties of an Atom Inside a Kerr Nonlinear Blackbody, International Journal of Theoretical Physics. 50 (2011) 581–593.
[43]. J.-H. Yuan*, Z. Cheng, Q.-J. Zeng, J.-P. Zhang, J.-J. Zhang, Velocity-controlled guiding of electron in graphene: Analogy of optical waveguides, Journal of Applied Physics. 110 (2011) 103706.
[44]. J.-H. Yuan*, Z. Cheng, J.-J. Zhang, Q.-J. Zeng, J.-P. Zhang, Voltage-driven electronic transport and shot noise in armchair graphene nanoribbons, Physics Letters A. 375 (2011) 2670–2675.
[45]. J.-H. Yuan*, J.-J. Zhang, Q.-J. Zeng, J.-P. Zhang, Z. Cheng, Tunneling of Dirac fermions in graphene through a velocity barrier with modulated by magnetic fields, Physica B: Condensed Matter. 406 (2011) 4214–4220.
[46]. Q. Zeng*, Z. Cheng, J. Yuan, Radiation Laws of a Kerr Nonlinear Blackbody in a Moving Frame of Reference, International Journal of Theoretical Physics. 50 (2011) 1671–1686.
[47]. Q.J. Zeng*, Z. Cheng, J.-H. Yuan, Thermostatistical properties of a q-deformed bosonic exciton gas, European Physical Journal B. 81 (2011) 275–281.
2010年
[48]. J. Huang*, J. Yuan, Absorption of a hydrogenic donor quantum dot with magnetic field, Mod. Phys. Lett. B. 24 (2010) 657–663.
[49]. Yuan. Jian-Hui*, Huang. Jin-Sheng, Yin. Miao, Zeng. Qi-Jun, Zhang. Jun-Pei, Spectrum and Binding Energy of an Off-Center Hydrogenic Donor in a Spherical Quantum Dot, Commun. Theor. Phys. 54 (2010) 369.
[50]. Yuan. Jian-Hui*, Cheng. Ze, Yin. Miao, Zeng. Qi-Jun, Zhang. Jun-Pei, Klein Paradox and Disorder-Induced Delocalization of Dirac Quasiparticles in One-Dimensional Systems, Communications in Theoretical Physics. 54 (2010) 1129–1133.
[51]. J.-H. Yuan*, J.-S. Huang, M. Yin, Q.-J. Zeng, J.-P. Zhang, The correlation energies and nonlinear optical absorptions of an exciton in a disc-like quantum dot, Optics Communications. 283 (2010) 3529–3532.
[52]. Q. Zeng*, Z. Cheng, J. Yuan, Fluctuations of a q-deformed boson gas, Journal of Statistical Mechanics-Theory and Experiment. (2010) P11035.
2009年
[53]. J. Yuan*, W. Xie, L. He, Shallow Donor Impurity Ground State in a GaAs/AlAs Spherical Quantum Dot within an Electric Field, Commun. Theor. Phys. 52 (2009) 710.
[54]. J. Yuan*, W. Xie, L. He, An off-center donor and nonlinear absorption spectra of spherical quantum dots, Physica E: Low-Dimensional Systems and Nanostructures. 41 (2009) 779–785.
2008年
[55]. J.-H. Yuan*, C. Liu, Binding energy of an off-center hydrogenic donor in a spherical quantum dot with strong parabolic confinement, Physica E: Low-Dimensional Systems and Nanostructures. 41 (2008) 41–44.