[1] Ling-Bao Kong, Cheng-Ping Huang, Chao-Hai Du, Pu-Kun Liu, and Xiao-Gang Yin.
“Enhancing spoof
surface-plasmons with gradient metasurfaces,
” Scientific Reports, 2015, 5: 8772. (影响因子:5.078)
[2] Ling-Bao Kong, Zhaoyang Chen, Pu-Kun Liu, and M. Y. Yu.
“Charged particle acceleration through decreasing refractive index,” Applied Physics Express, 2015, 8: 026101. (影响因子:2.567)
[3] Chao-Ran Xie, Ling-Bao Kong*, Pu-Kun Liu, Chao-Hai Du, Zhi-Ling Hou, Hai-Bo Jin.
“Efficiency enhancement of anomalous-Doppler electron cyclotron masers with tapered magnetic field”, Physics of Plasmas, 2014, 21: 023117. (通信作者)(影响因子:2.249)
[4] Ling-Bao Kong, Zhi-Ling Hou, Jian Jing, Hai-Bo Jin, Chao-Hai Du.
“Enhancing the efficiency of slow-wave electron cyclotron masers with the tapered refractive index”, Physics of Plasmas, 2013, 20: 043107. (影响因子:2.249)
[5] Ling-Bao Kong, Hong-Yu Wang, Zhi-Ling Hou, Hai-Bo Jin, Chao-Hai Du.
“The nonlinear theory of slow-wave electron cyclotron masers with inclusion of the beam velocity spread”, Annals of Physics, 2013, 339: 588. (影响因子:3.065)
[6] Ling-Bao Kong, Hong-Yu Wang, Zhi-Ling Hou, Hai-Bo Jin, The self-consistent nonlinear theory of charged particle beam acceleration by slowed circularly-polarized electromagnetic wave, Plasma Science and Technology, 2013, 15(12): 1174. (
影响因子:0.596)
[7] Ling-Bao Kong.
“Linear wave dispersion relation of a magnetized relativistic rectilinear electron beam-dielectric system”, Communications in Nonlinear Science and Numerical Simulation, 2012, 17: 650. (影响因子:2.569)
[8] Ling-Bao Kong, Zhi Li, Chao-Ran Xie, and Zhi-Ling Hou.
“The resonance interaction of relativistic electron with circularly polarized waves”, Communications in Nonlinear Science and Numerical Simulation, 2012, 17: 1104. (影响因子:2.569)
[9] Ling-Bao Kong, Zhi-Ling Hou, and Chao-Ran Xie.
“The self-consistent nonlinear theory of electron cyclotron maser based on anomalous doppler effect”, Applied Physics Letters, 2011, 98: 261502. (影响因子:3.515)
[10] Ling-Bao Kong, Zhi-Ling Hou.
“Numerical simulations of nonlinear dynamics of electron cyclotron maser with a straight beam”, Chinese Physics Letters, 2011, 28: 117702. (影响因子:0.924)
[11] Ling-bao Kong and Pu-Kun Liu.
“Analytical solution for relativistic charged particle motion in a circularly polarized electromagnetic wave”, Physics of Plasmas, 2007, 14(6): 063010. (影响因子:2.249)
[12] Ling-bao Kong, Pu-Kun Liu, and Liu Xiao.
“Nonlinear analysis of electron cyclotron maser based on anomalous Doppler effect”, Physics of Plasmas, 2007, 14: 053108. (影响因子:2.249)
[14] Chao-Hai Du, Xiang-Bo Qi, Ling-Bao Kong, Pu-Kun Liu, Zheng-Di Li, Shou-Xi Xu, Zhi-Hui Geng, and Liu Xiao.
“Broadband Tunable Pre-Bunched Electron Cyclotron Maser for Terahertz Application,” IEEE Transactions on Terahertz Science and Technology, 2015, 5, 236-243. (影响因子:4.342)
[15] Zhi-Ling Hou, Min Zhang, Ling-Bao Kong, Hui-Min Fang, Zhong-Jun Li, Hai-Feng Zhou, Hai-Bo Jin
and Mao-Sheng Cao.
“Microwave permittivity and permeability experiments in high-loss dielectrics: Caution with implicit Fabry-Pérot resonance for negative imaginary permeability,” Applied Physics Letters, 2013, 103: 162905. (影响因子:3.515)
[16] Zi-Gang Yuan, Ping Zhang, Shu-Shen Li, Jian Jing, and Ling-Bao Kong.
“Scaling of the Berry phase close to the excited-state quantum phase transition in the Lipkin model”, Physical Review A, 2012, 85: 044102. (影响因子:3.042)
[17] X. Li, L.-B. Kong, Z.-L.Hou and J.-D.Shao.
“The application of laser induced damage spot size effect for laser conditioning mechanism”, The European Physical Journal - Applied Physics, 2012, 59: 20301. (影响因子:0.789)
[18] Lei Xu, Jian Jing, Zi-Gang Yuan, Ling-Bao Kong, Zheng-Wen Long.
“Yangian symmetries and integrability of the Dirac equation with spin symmetry”, Annals of Physics, 2013, 329: 158.(影响因子:3.065)
[19] Zhi-Ling Hou, Hai-Feng Zhou, Ling-Bao Kong, Hai-Bo Jin, Xin Qi, Mao-Sheng Cao.
“Enhanced ferromagnetism and microwave absorption properties of BiFeO3 nanocrystals with Ho substitution”, Materials Letters, 2012, 84: 110. (影响因子:2.269)
[20] Zhi-Ling Hou, Ling-Bao Kong, Zhou Hai-Feng, Ke-Tao Zhan, Xin Qi.
“The comprehensive retrieval method of electromagnetic parameters using scattering parameters of metamaterials for the two choices of the time-dependent factors”, Chinese Physics Letters, 2012, 29: 017701. (影响因子:0.924)
[21] Cheng-Ping Huang, Xiao-Gang Yin, Ling-bao Kong, and Yong-yuan Zhu.
“Interactions of nanorod particles in the strong coupling regime”, J. Phys. Chem. C, 2010, 114: 21123. (影响因子:4.835)
[22] Hai-Feng Zhou, Zhi-Ling Hou, Ling-Bao Kong, Hai-Bo Jin, Mao-Sheng Cao and Xin Qi.
“Enhanced magnetization and improved leakage in Er doped BiFeO3 nanoparticles”, Physica Status Solidi A, 2013, 210: 809. (影响因子:1.525)
[23] Muhammad Rizwana, Yan-Kun Dou, Hai-Bo Jin, Zhi-Ling Hou, Ling-Bao Kong, Jing-Bo Li, Faheem K. Butt and FidaRehman.
“Design of a novel negative refractive index material based on numerical simulation,” The European Physical Journal - Applied Physics, 2013, 63: 10502. (影响因子:0.789)
[24] Wang Hong-Yu, Jiang Wei, Sun Peng, and Kong Ling-Bao.
“On
the
energy
conservation
electrostatic
particle-in-cell/Monte Carlo simulation: Benchmark and application to
the
radio frequency discharges
,
” Chinese Physics B, 2014, 23: 035204. (影响因子:1.392)
[25] Muhammad Rizwan, Hai-Bo Jin, FidaRehman, Zhi-Ling Hou, Ling-Bao Kong, Jing-Bo Li, Faheem K. Butt, Yan-Kun Dou, Zulfiqar Ali, and Muhammad Tahir.
“Numerical Study of an A-Shape Negative Refractive Index Material,” Chinese Journal of Physics, 2014, 52: 1521.
(
影响因子:0.431)
[26]
侯志灵,周海峰,孔令宝,一种钬掺杂铁酸铋多铁材料及其制备方法,国家发明专利,No 201110287561.0