[149] Y. L. Wang, H. B. Sang and B. S. Xie, Phys. Rev. D 100, 116016 (2019).
Schwinger pair production correction in thermal systems
[148] Z. L. Li, B. S. Xie and Y. J. Li, Phys. Rev. D 100, 076018 (2019).
Boson pair production in arbitrarily polarized electric fields
[147] Chong Lv, Bao-Zhen Zhao, Feng Wan, Hong-Bo Cai, Xiang-Hao Meng, Bai-Song Xie, Fu-Long Liu, Qiu-Shi Liu, Xiao-Hua Zhang, Ji Zhang and Yu-Chen Li, Phys. Plasmas 26, 103101 (2019).
Effect of the electron heating transition on the proton acceleration in a strongly magnetized plasma
[146] Jianfeng Lv, Yiqing Hu and Baisong Xie, Europhys. Lett 127, 54001 (2019).
Analytical Thomson backscattering spectra and new scaling laws in laser and magnetic fields
[145] Li Wang, Binbing Wu and B. S. Xie, Phys. Rev. A 100, 022127 (2019).
Electron-positron pair production in an oscillating Sauter potential
[144] Mamutjan Ababekri, Bai-Song Xie and Jun Zhang, Phys. Rev. D 100, 016003 (2019).
Effects of finite spatial extent on Schwinger pair production
[143] Y. J. Hou, B. S. Xie, C. Lv, F. Wan, L. Wang, N. Yasen, H. B. Sang, and G. X. Xia, Plasma Sci. And Tech. 21, 085201 (2019).
High density γ-ray emission and dense positron production via multi-lasers driven circular target
[142] Li Zhao, Zhijing Chen, Haibo Sang and Baisong Xie, Chin. Phys. Lett. 36, 074101 (2019).
Spatial Characteristics of Thomson scattering spectra in laser and magnetic fields
[141] J. Zhu and B. S. Xie, Europhys. Lett, 126,34001 (2019).
Nonlinear enhanced effects on Thomson backscattering by magnetic field and amplitude modulating of laser field
[140] Zhijing Chen, Li Zhao, Chun Jiang, Haibo Sang and Baisong Xie, Europhys. Lett,125,64002 (2019).
Thomson backscattering in combined two laser and magnetic field
[139] N. Yasen, C. Lv, Y. J. Hou, L. Wang, H. B. Sang, M. Ali Bake, and B. S. Xie, Plasma Sci. And Tech. 21, 045201 (2019).
Enhancement of proton collimation and acceleration by an ultraintense laser interacting with a cone target followed with a beam collimator
[138] Obulkasim Olugh, Zi-Liang Li, Bai-Song Xie, and Reinhard Alkofer, Phys. Rev. D 99, 036003 (2019).
Pair production in differently polarized electric fields with frequency chirps
[137] Z. L. Li, B. S. Xie and Y. J. Li, J. Phys. B: At. Mol. Opt. Phys. 52, 025601 (2019).
Vortices in multiphoton pair production by two-color rotating laser fields

[136] Jian Huang, Chun Jiang, Bai-Song Xie, Hai-Bo Sang, Li Zhao, Zhi-Jing Chen, Chong Lv,Feng Wan and Wei Cheng, EPL, 124,34005 (2018).
Effects of laser pulse shape on forward Thomson scattering
[135] N. Yasen, C. Lv, Y. J. Hou, L. Wang, F. Wan, M. R. Jia, I. Sitiwaldi, H. B. Sang, M. Ali Bake,  and B. S. Xie, Plasma Sci. And Tech. 20, 125201 (2018).
Fast electrons collimating and focusing by an ultraintense laser interacting with high density layers
[134] M. R. Jia, F. Wan, C. Lv and B. S. Xie, Commun. Theor. Phys. 70 (4), 430-438 (2018).
Pair production in chromoelectric field with back reaction
[133] D. D. Cao, F. Wan, Y. J. Hou, H. B. Sang and B. S. Xie, Chin. Phys. B 27, 065201 (2018).
Reversed rotation of limit cycle oscillation and dynamics of low-intermediate-high confinement transition
[132] Weijun Zhou, Xueren Hong, Baisong Xie, Yang Yang, Li Wang, Jianmin Tian, Rongan Tang, and Wenshan Duan, Phys. Rev. ST Accel. Beams 21, 021301 (2018).
High quality ion acceleration through the interaction of two matched counterpropagating transversely polarized Gaussian lasers with a flat foil target
[131] I. Sitiwaldi and B. S. Xie, Phys. Lett. B 777, 406-411 (2018).
Pair production by three fields dynamically assisted Schwinger process

[130] Y. J. Hou, C. Lv, F. Wang, N. Yasen, M. Ali Bake, H. B. Sang and B. S. Xie, Phys. Plasmas 24, 123110 (2017).
Transverse magnetic field effect on the transport of relativistic electrons beam in laser irradiating plasmas
[129] B. S. Xie, Z. L. Li, S. Tang and J. Liu, Physics 46 (11) 713-720 (2017). (in Chinese).
Electron-positron pair production in ultrastrong fields
[128] H. Z. Xie, C. Jiang and B. S. Xie, Chin. Phys. B 26, 124101 (2017).
Studies on convergence and scaling law of Thomson backscattering spectra in strong fields
[127] Z. L. Li, Y. J. Li and B. S. Xie, Phys. Rev. D 96, 076010 (2017).
Momentum vortices on pairs production by two counter-rotating fields
[126] B. S. Xie, Z. L. Li and S. Tang, Matter and Radiation at Extremes 2, 225-242 (2017).
Electron-positron pair production in ultrastrong laser fields
[125] F. Wan, C. Lv, M. R. Jia, H. B. Sang and B. S. Xie, Eur. Phys. J. D 71, 236 (2017).
Photon emission by bremmstrahlung and nonlinear Compton scattering in the interaction ofultraintense laser with plasmas
[124] C. Lv, F. Wan, Y. J. Hou, X. R. Hong, M. R. Jia, H. B. Sang and B. S. Xie, Phys. Plasmas 24, 083114 (2017).
Accelerating and guiding of $C^{6+}$ by an intense laser irradiating on a foil target with a tapered channel
[123] X. R. Hong, W. J. Zhou, B. S. Xie, Y. Yang, L. Wang, J. M. Tian, R. A. Tang and W. S.Duan, Chin. Phys. B 26 (6), 065203 (2017).
Generation of high quality ion beams through the stable radiation pressure acceleration of thenear critical density target
[122] F. Wan, C. Lv, M. R. Jia and B. S. Xie, Plasma Sci. And Tech. 19, 075201 (2017).
Enhanced photon emission and pair production in laser irradiating plasmas
[121] C. Jiang, H. Z. Xie, H. B. Sang and B. S. Xie, Europhys. Lett. 117, 44002(2017).
Thomson backscattering in combined fields with a general elliptical polarization
[120] C. Lv, B. S. Xie, F. Wan, Y. J. Hou, M. R. Jia, H. B. Sang, X. R. Hong and S. B. Liu,
Phys. Plasmas 24, 033122 (2017).
Enhanced laser radiation pressure acceleration of protons with a gold cone-capillary
[119] I. Sitiwaldi and B. S. Xie, Phys. Lett. B768, 174-179 (2017).
Modulation effect in multiphoton pair production
[118] D. Lu, Z. L. Li, H. B. Sang and B. S. Xie, Plasma Sci. And Tech. 19(3), 035002 (5pp) (2017).
Delicate scale multipeak and flat-top structures of solitary waves in multi-component plasmas
[117] Sitiwaldi Ibrahim, Z. L. Li and B. S. Xie, Commun. Theor. Phys. 67 (1), 76-82 (2017).
Electron-positron pair production in strong fields characterized by conversion energy
[116] N. Abdukerim, Z. L. Li and B. S. Xie, Chin. Phys. B 26 (2), 020301 (8pp) (2017).
Enhanced electron-positron pair production by frequency chirping in one- and two-color
laser pulse fields
[115] C. Lv, F. Wan, Y. J. Hou, M. R. Jia, H. B. Sang, B. S. Xie, and S. B. Liu, Plasma Phys.
Control. Fusion 59, 025006 (10pp)(2017).
Guiding and collimating the fast electrons by using a low-density-core target with buried
high density layers
[114] M. R. Jia, Z. L. Li, C. Lv, F. Wan and B. S. Xie, Front. Phys. 12, 121101 (2017).
pair production in strong SU(2) background fields

[113] Z. L. Li, N. Abdukerimand B. S. Xie, Progress in Physics 36, 129-156 (2016)(in Chinese).
The research and progress of vacuum electron-positron pair production in ultra-intense fieldsstudied by kinetic method
[112] Y. J. Fu, C. Jiang, C. Lv, F. Wan, H. B. Sang, and B. S. Xie, Phys. Rev. A 94, 052102(2016).
Scale invariance and scaling law of Thomson backscatter spectra by electron moving in resonance regime in combined laser and magnetic fields
[111] C. Lv, F. Wan, M. R. Jia, Z. L. Li, H. B. Sang and B. S. Xie, Chin. Phys. B 25, 105201 (2016).
Electronic trasport of Lorentz plasma with collision and magnetic field effects
[110] Y. J. Hou, F. Wan, H. B. Sang and B. S. Xie, Phys. Plasmas 23, 013105 (2016).
Positron acceleration in plasma bubble wakefield driven by an ultraintense laser

[109] Z. L. Li, D. Lu and B. S. Xie, Phys. Rev. D 92, 085001 (2015).
Effects of electric field polarizations on pair production

[108] D. Lu, Z. L. Li and B. S. Xie, J. Plasma Phys. 81, 905810508 (2015).
Solitary waves in asymmetric electron-positron-ion plasmas

[107] Y. Liang, H. B. Sang, F. Wan, C. Lv and B. S. Xie, Phys. Plasmas 22, 073105 (2015).
Relativistic laser pulse compression in magnetized plasmas

[106] Z. L. Li, D. Lu,B. S. Xie, B. F. Shen, L. B. Fu and J. Liu, Europhys. Lett. 110, 51001 (2015).
Nonperturbative signatures in pair production forgeneral elliptic polarization fields

[105] H. Y. Wang, P. Sun, W. Jiang, J. Zhou and B. S. Xie, Chin. Phys. B 24, 065207 (2015).
Implicit electrostatic particle-in-cell/Monte Carlo simulation for the magnetized plasma: Algorithms and application in gas-inductive breakdown

[104] N. Abdukerim, Z. L. Li and B. S. Xie, Front. Phys. 10, 101202 (2015).
Electron-positron pair production in the low-density approximation

[103] Z. L. Li, D. Lu, and B. S. Xie, Front. Phys. 10, 101201 (2015).
Dynamically assisted pair production for scalar QEDby two fields

[102] Z. L. Li, D. Lu, B. S. Xie, L. B. Fu, J. Liu, and B. F. Shen, Phys. Rev. D 89, 093011 (2014).
Enhanced pair production in strong fields by multiple-slit interference effect with dynamically assisted Schwinger mechanism

[101] Z. L. Li, D. Lu, and B. S. Xie, Phys. Rev. D 89, 067701 (2014).
Multiple-slit interference effect in the time domain for boson pair production

[100] A. Aimidula, M. A. Bake, F. Wan, B. S. Xie, C. P. Welsch, G. Xia, O. Mete, M. Uesaka, Y. Matsumura, M. Yoshida, and K. Koyama, Phys. Plasmas 21, 023110 (2014).
Numerically optimized structures for dielectric dual-grating laser accelerators

[99] S Tang,M. Ali Bake, H. Y. Wang, and B. S. Xie, Phys. Rev. A 89, 022105 (2014).
QED Cascades Induced By High Energy $\gamma$ Photon In Strong Laser Field

[98] D. Lu, Z. L. Li, N. Abdukerim, and B. S. Xie, Phys. Plasmas 21, 022108 (2014).
Solitary and shock waves in magnetized electron-positron plasma

[97] O. Oluk, B. S. Xie, M. AliBake, and S. Dulat, Front. Phys. 9,157 (2014).
Electron-positron pair production in a strong asymmetric laser electric field

[96] S. Tang, B. S. Xie, H. Y. Wang, J. Liu, L. B. Fu, and M. Y. Yu, Chin. Phys. Lett. 31, 011203 (2014).
Enhanced correlation of electron-positron pair in two and three dimensions

[95] B. S. Xie, Z. L. Li, D. Lu, and H. B. Sang, Phys. Plasmas 20, 112109 ( 2013).
On existence of solitary waves in unmagnetized neutral hot pair plasma

[94] N. Abdukerim, Z. L. Li, and B. S. Xie, Phys. Lett. B 726, 820 (2013).
Effects of laser pulse shape and carrier envelope phase on pair production

[93] H. Liu, X. P. Li, B. S. Xie, and S. Zhang, Phys. Lett. A 377, 2890 (2013).
Intense laser beam propagating in a plasma channel with flat-bottom leaky density profile

[92] D. Lu, Z. L. Li, and B. S. Xie, Phys. Rev. E 88, 033109 (2013).
Effects of ion mobility and positron fraction on solitary waves in weak relativistic electron-positron-ion plasma

[91] M. Ali Bake, B. S. Xie, A. Aimidula, and H. Y. Wang, Phys. Plasmas 20, 074503 (2013).
Efficient proton acceleration and focusing by an ultraintense laser interacting with a parabolic double concave target with an extended rear

[90] S. Tang, B. S. Xie, D. Lu, H. Y. Wang, L. B. Fu, and J. Liu, Phys. Rev. A 88, 012106 (2013).
Electron-positron pair creation and correlation between momentum and energy level in a symmetric potential well

[89] D. Lu, X. Y. Zhao, B. S. Xie, M. Ali Bake, H. B. Sang, and H. C. Wu, Phys. Plasmas 20, 063104 (2013).
Electrons trajectories around a bubble regime in intense laser plasma interaction

[88] M. Ali Bake, B. S. Xie,S. Zhang, and H. Y. Wang, Phys. Plasmas 20, 033112 (2013).
Energetic protons from an ultraintense laser interacting with a symmetricparabolic concave target

[87] H. B. Sang, M. Jiang, and B. S. Xie, Chin. Phys. Lett. 30, 111201 (2013).
Electron-positron pair creation from vacuum by the negative frequency chirping laser pulses

[86] M. JIang, B. S. Xie, H. B. Sang, and Z. L. Li, Chin. Phys. B 22, 100307 (2013).
Enhanced electron-positron pair creation by the frequency chirped laser pulse

[85] Z. L. Li, H. B. Sang, and B. S. Xie,Chin. Phys. Lett. 30, 071201 (2013).
Enhanced electron-positron pair production of vacuum in a strong laser pulse field by frequency variation

[84] H. C. Wu and B. S. Xie,Commun.Theor.Phys. 59, 484 (2013).
Modified Bubble Core Fields and Bubble Shape in Laser Driven Plasma

[83] N.Abdukerim, B. S. Xie, Z. L. Li, and S. Dulat, Commun. Theor. Phys. 59, 331 (2013).
Electron-Positron Pair Production in a Strong Laser Field Enhanced by an Assisted High Frequency Weak Field

[82] H. B. Sang, S. Q. Deng, and B. S. Xie,Commun. Theor. Phys. 59, 205 (2013).
Effects of Ions Charge-Mass Ratio on Energy and Energy Spread of Accelerated Ions in Laser Driven Plasma

[81] A. Nuriman, B. S. Xie, Z. L. Li and D. Sayipjamal, Phys. Lett. B 717, 465 (2012).
Enhanced electron–positron pair creation by dynamically assisted combinational fields

[80] M. Ali Bake, S. Zhang S, B. S. Xie, X. R. Hong, and H. Y. Wang, Phys. Plasmas 19, 083103 (2012).
Energy enhancement of proton acceleration in combinational radiation pressure and bubble by optimizing plasma density

[79] X. Y. Zhao, B. S. Xie, H. C. Wu, S. Zhang, X. R. Hong, and A. Aimierding, Phys. Plasmas 19, 033108 (2012).
Electron injection and acceleration in the plasma bubble regime driven by an ultraintense laser pulse combined with using dense-plasma wall and block

[78] L. Y. He, B. S. Xie, X. H. Guo, and H. Y. Wang, Commun. Theor. Phys. 58, 863 (2012).
Electron-Positron Pair Production in an Arbitrary Polarized Ultrastrong Laser Field

[77] M. Mohamedsedik, B. S. Xie and S Dulat, Commun. Theor. Phys. 57, 422(2012).
Analytical Study of Pair Production Rate from Vacuum in an Elliptic Polarized Field by a Two-Level Transition Technique

[76] B. S. Xie, M. Mohamedsedik, and S. Dulat, Chin. Phys. Lett. 29, 021102 (2012).
Electron-Positron Pair Production in an Elliptic Polarized Time Varying Field

[75] X. R. Hong, B. S. Xie, S. Zhang, H. C. Wuand X. Y. Zhao,Phys. Plasmas 18, 103106 (2011).
Wakefield effects and solitary waves of an intense short laser pulse propagation in a plasma channel

[74] S. Zhang, X. R. Hong, H. Y. Wang, and B. S. Xie, Phys. Lett. A 375, 4022 (2011).
Allowable propagation of short pulse laser beam in a plasma channel andelectromagnetic solitary waves

[73] S. Zhang, B. S. Xie, X. R. Hong, H. C. Wuand X. Y. Zhao, Phys. Plasmas 18, 033104 (2011).
Electromagnetic solitary waves in plasma channel

[72] M. Ali Bake, B. S. Xie, S. Dulat, and A. Aimidula, Commun. Theor. Phys. 55, 883 (2011).
Electron acceleration in wakefield and supra-bubble regimes by ultraintense laser with asymmetric pulse

[71] S. Zhang, B. S. Xie, X. R. Hong, H. C. Wu, A. Aimidula, X. Y. Zhao, and M. P. Liu,Chin.Phys. B 20, 015206 (2011).
Suppression of multiple ion bunches and generation of monoenergetic ion beams in laser foil-plasma interaction

[70] H. C. Wu, B. S. Xie, S. Zhang, X. R. Hong, X. Y. Zhao and M. P. Liu, Phys. Plasmas 17, 113103 (2010).
Bubble core field modification by residual electrons inside the bubble

[69] X. R. Hong, B. S. Xie, S. Zhang, H. C. Wu, A. Aimidula,X. Y. Zhao, and M. P. Liu, Phys. Plasmas 17, 103107 (2010).
High quality ion acceleration from a double-layer target dominated by the radiation pressure of a transversely Gaussian laser pulse

[68] B. Liu, H. Zhang, L. B. Fu, Y. Q. Gu, B. H. Zhang, M. P. Liu, B. S. Xie, J. Liu, and X. T. He, Laser and Part. Beams 28, 351 (2010).
Ion jet generation in the ultraintense laser interactions with rear-side concave target

[67] HC Wu, BS Xie, and MY Yu,Chin. Phys. Lett. 27, 105201 (2010).
Electron acceleration in the bubble regime with dense-plasma wall driven by an ultraintense laser pulse

[66] M. P. Liu, Q. N. Wang, S. . Deng, S. Q. Liu, and B. S. Xie, Commun. Theor. Phys. 54, 359 (2010).
Electron acceleration and bunch generation by intense femtosecond laser pulse in preplasma of a target

[65] J. Li, B. S. Xie, H. B. Sang, X. R. Hong, S. Zhang, and M. Y. Yu, Appl. Phys. Lett. 95, 161105 (2009).
Nonlinear laser-driven electron resonance acceleration in inhomogeneous magnetic field

[64] M. P. Liu,H. C. Wu, B. S. Xie, X. R. Hong, S. Zhang, and M. Y. Yu, Phys. Plasmas 16, 083104 (2009).
Electron acceleration by intense short laser pulse in the preplasma of a target

[63] H. C. Wu, B. S. Xie, , X. R. Hong, S. Zhang, and M. Y. Yu, Phys. Plasmas 16, 073108 (2009).
Electron trajectories and betatron oscillation in the wake bubble in laser-plasma interaction

[62] M. P. Liu, B. S. Xie, Y. S. Huan, J. Liu, and M. Y. Yu, Laser and Part. Beams 27, 327 (2009).
Enhanced ion acceleration by collisionless electrostatic shock in thin foils irradiated by ultraintense laser pulse

[61] A. Aimidula, B. S. Xie, S. Dulat, and A. Zakir, Physica Scripta 79, 045503 (2009).
Positron acceleration in the wakefield of asymmetric laser pulses

[60] B. S. Xie, A. Aimidula,J. S. Niu, J. Liu, and M. Y. Yu, Laser and Part. Beams 27, 27 (2009).
Electron acceleration in the wakefield of asymmetric laser pulses

[59] B. S. Xie and H. C. Wu, Commun. Theor. Phys. 51, 1125 (2009).
Ion acceleration in laser-plasma interaction: shock, sheath and scaling

[58] M. P. Liu, H. C. Wu, B. S. Xie, J. Liu, H. Y. Wang, and M. Y. Yu, Phys. Plasmas 15, 063104 (2008).
Energetic collimated ion bunch generation from an ultraintense laser interacting with thin concave targets

[57] M. P. Liu, H. C. Wu, B. S. Xie, and M. Y. Yu, Phys. Plasmas 15, 023108 (2008).
Electron acceleration in vacuum by subcycle laser pulse

[56] B. S. Xie and X. T. Yin, Commun. Theor. Phys. 49, 753 (2008).
Stable propagating wave and wake fields in relativistic electromagnetic plasma

[55] B. S. Xie , M. P. Liu, N. Y. Wang, and M. Y. Yu, Appl. Phys. Lett. 91, 011118 (2007).
Particle acceleration by subcycle laser pulse in vacuum

[54] B. S. Xie, H. C. Wu, H. Y. Wang, N. Y. Wang and M. Y. Yu, Phys. Plasmas 14, 073103 (2007).
Analysis of the electromagnetic fields and electron acceleration in the bubble regime of the laser-plasma interaction

[53] S. W. Yan, Q. Wang,B. S. Xie, and F. S. Zhang Chin. Phys. Lett. 24, 1771 (2007).
Oscillatory activities in regulatory biological networks and Hopf bifurcation

[52] B. S. Xie and S. C. Du, Front. Phys. 2, 178 (2007).
Solitons in relativistic laser-plasma interactions

[51] B. S. Xie and S. C. Du, Physica Scripta 74, 638 (2006).
Spectrum of electromagnetic solitons in relativistic plasma

[50] B. S. Xie and S. C. Du, Phys. Plasmas 13, 074504 (2006).
Multipeak solitons and nonlinear modulation solutions in plasma under relativistic electromagnetic field

[49] B. S. Xie, X. T. Yin, and X. Luo, Physica Scripta 73, 655 (2006).
New approaches and solutions of the nonlinear force-free field

[48] B. S. Xie and S. C. Du,Commun. Theor. Phys. 46,739 (2006).
Numerical soliton and oscillating wave solutions for the Flierl-Petviashvili equation in plasmas

[47] B. S. Xie, Commun. Theor. Phys. 46,735 (2006).
New approaches and solutions of the nonlinear force-free magnetic field

[46] H. Y. Wang and B. S. Xie, Commun. Theor. Phys. 46,563 (2006).
Numerical simulation of ultrafast laser pulse propagation in tenuous plasmas: envelope evolving and modulation

[45] B. S. Xie, Commun. Theor. Phys. 46,561 (2006).
Two new solutions of non-constant-α force-free magnetic field

[44] B. S. Xie, H. C. Wu, S. W. Yan, F. S. Zhang and D. Sayipjamal,Commun. Theor. Phys. 46, 353 (2006).
Correlation of two coupled particles in viscoelastic medium

[43] C. C. Hua, B. S. Xie, and K. F. He, Chaos, Solitons and Fractals25, 1161 (2005).
Steady Bifurcation and Solitons in Relativistic Laser Plasmas Interaction

[42] B. R. Wei, F. S. Zhang, W. Cheng, S. W. Yan, and B. S. Xie, Int. Jour. Mod. Phys. B19, 2886 (2005).
Ionization of Na-2 by highly charged particles

[41] H. C. Wu and B. S. Xie, Phys. Plasmas 12, 064503 (2005).
Effect of thermic emission current on charge of rains in plasma

[40] B. S. Xie andM. Y. Yu, Physica Scripta 71, 548 (2005).
Effect of ion trapping on the shielding of a charged grain

[39] B. S. Xie, H. Li, and B. Hu, Europhys. Lett. 69, 358 (2005).
Heat conduction in one-dimensional Yukawa chain

[38] H. C. Wu andB. S. Xie, Commun. Theor. Phys. 44, 547 (2005).
Charges and levitation of grains in plasma sheath with dust thermic emission

[37] B. S. Xie and M. Y. Yu, Commun. Theor. Phys. 44, 297 (2005).
Drift intermittent synchronization and controllability in a simple model

[36] B. S. Xie and C. C. Hua, Commun. Theor. Phys. 43, 1119 (2005).
Solitary waves in relativistic electromagnetic plasma

[35] B. S. Xie and R. Wang, Commun. Theor. Phys. 43, 915 (2005).
Screening of a test charge in a plasma

[34] B. S. Xie and Y. P. Chen, Phys. Plasmas 11, 3519 (2004).
Low frequency modes in strongly coupled magnetized dusty plasmas

[33] B. S. Xie, Chin. Phys. Lett. 20, 2203 (2003).
Instability of longitudinal wave in magnetized strongly coupled dusty plasma

[32] S. B. Liu, B. S. Xie, S. P. Zhu, C. Y. Zheng, J. Zhang, and T. C Zuo, Commun. Theor. Phys. 39, 737(2003).
Stimulated emission of gamma photon from ultrashort pulse intense laser-solid-target interaction

[31] B. S. Xie and Z. A. Yang, Phys. Plasmas 9, 4851 (2002).
Noise driven configuration of dust clusters by molecular dynamics simulation

[30] R. Wang and B. S. Xie, Nucl. Instrum Meth. B 198, 197 (2002).
Study of diffusion of Ag in Cu single crystals

[29] B. S. Xie, Z. Y. Chen ZY, and M. Y. Yu, IEEE Trans. Plasma Sci. 30, 1384 (2002).
Effect of dust-charge variation on ion-wave decay interaction in dusty plasma

[28] B. S. Xie and N. C. Wang, Physica Scripta 65, 444 (2002).
Optimum effect of asymmetric laser pulse shape on relativistic laser-plasma wake field

[27] B. S. Xie, M. Y. Yu, K. F. He, Z. Y. Chen, and S. B. Liu,Phys. Rev. E 65, 027401 (2002).
Modulational instability of short-wavelength ion waves in strongly coupled dusty plasmas

[26] N. C. Wang and B. S. Xie, Phys. Plasmas 9, 717 (2002).
Nonlinear instabilities in plasma with highly correlated dust grains

[25] H. J. Lian, B. S. Xie, and H. Y. Zhou,Chin. Phys. Lett. 19, 1635 (2002).
Levitation and oscillation of dust grains in plasma sheath with wake potential

[24] B. S. Xie, Chin. Phys. Lett. 19, 1463 (2002).
Longitudinal waves in strongly coupled magnetized dusty plasma with dust charging relaxation

[23] B. S. Xie and A. D. Liu, Chin. Phys. Lett. 19, 698 (2002).
Effect of laser pulse shape on the wake field in relativistic intense laser-plasma interaction

[22] B. S.Xie, Chin. Phys. Lett. 19, 365 (2002).
Does the decay wave propagate forwards in dusty plasmas?

[21] B. S. Xie and M. Y. Yu, Physica Scripta T89, 138 (2001).
Dust acoustic waves in collisional plasmas with highly correlated dusts

[20] B. S. Xie, Z. Y. Chen, and M. Y. Yu,IEEE Trans. Plasma Sci.29, 226 (2001).
Low-frequency electrostatic instabilities in strongly coupled dusty plasmas

[19] B. S. Xie, K. F. Liu, and K. F. He, Chin. Phys. Lett. 18, 927 (2001).
Suppression of instability in strongly coupled dusty plasmas with ion flow

[18] B. S. Xie and K. F. He, Chin. Phys. 10, 214 (2001).
Nonlinear localized structure in dusty plasma

[17] B. S. Xie and M. Y. Yu, Phys. Rev. E 62, 8501 (2000).
Dust acoustic waves in strongly coupled dissipative plasmas

[16] B. S. Xie and M. Y. Yu, Physica Scripta 62, 413 (2000).
Low frequency longitudinal modes in strongly coupled collisional dusty plasmas

[15] B. S. Xie and M. Y. Yu, Phys. Plasmas 7, 3137 (2000).
Dust-acoustic waves in strongly coupled plasmas with variable dust charge

[14] B. S. Xie, K. F. He, and M. Y. Yu, Chin. Phys. Lett. 17, 890 (2000).
Dust-acoustic waves in strongly coupled dusty plasmas containing variable-charge impurities

[13] B. S. Xie, K. F. He, and Y. P. Chen, Chin. Phys. 9, 922 (2000).
Dust-acoustic shock waves in the sheath of dusty plasmas

[12] B. S. Xie, K. F. He, and Z. Q. Huang, Chin. Phys. Lett. 17, 815 (2000).
Dust-acoustic solitons in dusty plasma with two-temperature ions

[11] B. S. Xie, Chin.Phys. 9, 810 (2000).
Approximate model of intense field stabilization for hydrogen atom

[10] B. S. Xie, K. F. He, and Z. Q. Huang, Phys. Plasmas 6, 3808-3816 (1999).
Dust-acoustic solitary waves and double layers in dusty plasma with variable dust charge and

[9] B. S. Xie, K. F. He, Z. Q. Huang, and M. Y. Yu, Phys. Plasmas 6, 2997 (1999).
Dust shielding and correlation function for dusty plasmas

[8] B. S. Xie, K. F. He, and Z. Q. Huang, Phys. Lett. A253, 83 (1999).
Attractive potential in weak ion flow coupling with dust-acoustic waves

[7] B. S. Xie and S. G. Chen, Commun. Theor. Phys. 32, 13 (1999).
Ionization problem for hydrogen atom in intense circularly polarized laser field revisited

[6] B. S. Xie, K. F. He, and Z. Q. Huang, Phys. Lett. A247, 403-409 (1998).
Effect of adiabatic variation of dust charges on dust-acoustic solitary waves

[5] B. S. Xie, Phys. Lett. A 242, 79 (1998).
Classical intense-field stabilization analysis by a four-dimensional map approximation

[4] B. S. Xie, K. F. He, and Z. Q. Huang, Chin. Phys. Lett. 15, 892 (1998).
Modified dust-acoustic solitons by adiabatic variation of dust charges

[3] B. S. Xie, S. G. Chen, andJ. Liu,Commun. Theor. Phys. 30, 481 (1998).
Classical description of intense field stabilization dynamics of 1D model atom

[2] B. S. Xie and S. G. Chen, Acta Physica Sinica7, 670 (1998).
Determination of Floquet states and quasi-energy by correlation function

[1] B. S. Xie and S. G. Chen, Chin. Phys. Lett. 14, 652 (1997).
Floquet eigenstate, phase space distribution and entropy in the atomic stabilization dynamics

Talks and Contributions

[39] 2019 Invited talk, “Pair production in strong fields”, 4th International Conference on Matter and Radiation at Extremes, 29 May - 02 June 2019, Hefei, China
[38] 2019 Invited talk, “High density γ-ray emission and dense positron production via multi-lasers driven circle target”, 9th International Conference on the Frontiers of Plasma Physics and Technology (FPPT-9), 8-12 April 2019, Negombo, Sri lanka
[37] 2018 Lecture, “On Pair Production in Strong Fields by DHW Formalism” on 5 Sep. 2018, visiting Prof. Reinhard Alkofer, 3 - 7 Sep 2018, University of Graz, Graz, Austria.
[36] 2017 Invited talk, “Nonlinear Compton Scattering and Bremsstrahlung in LPI”, 1st workshop on applications of high energy Circular Electron-Positron Collider（CEPC）synchrotron radiation source, 6-8 Dec. 2017, IHEP, Beijing.
[35] 2017 Invited talk, “Fast Electrons Transport in Plasma by Strong Laser Interaction”, 26th International Laser Physics Workshop (LPHYS’17), 17 - 21 July 2017, Kazan, Russia.
[34] 2016 Invited talk, “ Pair Production from Vacuum in Ultrastrong Laser Fields”, 3th International Conference on High Energy Density Physics (ICHEDP2016), 23 - 26 Sep 2016, Shenzhen, China.
[33] 2016 Oral, “Ion mass induced enhancement on gamma photons and positrons production in the interaction of an ultraintense laser with overdense plasmas”, 27th International Conference on Atomic Collisions in Solids (ICACS-27), 24 - 29 July 2016, Lanzhou, China.
[32] 2016 Oral, “Bremsstrahlung and nonlinear Compton scattering simulation in the ultraintense Laser interacting with high-Z Plasmas ”, Workshop on the intense laser driven gamma-light source and key technology & gamma-light nuclear physics application, 23-25 June 2016, Institute of High Energy Physics, Beijing, China. 
[31] 2015 Oral, “Effects of polarizations of external fields on vacuu pair production”, 11th International Conference on Super Intense Laser Atom Physics (SILAP2015), 7-10 Sep, Bordeaux, France.
[30] 2015 Invited talk, “Quantum Vlasov equation and pair production in strong fields”, The 8th Cross-Strait conference on Statistical Physics (CSCSP2015), 17-21Aug, Xinzhu and Taibei, Taiwan.
[29] 2015 Invited talk, “Superintense laser and electron-positron pair production”, Seminar on superintense laser sources and advanced applications, Fragrant-Hill Science Conference, 9-10 April, Shanghai, China.
[28] 2014 Participating, The 5st National Conference on High Energy Density Physics and The 1st Conference by High Energy Density Physics Committee of Chinese Physical Society, 4-7 November 2014, Chengdu, Sichuang Province, China. See also the Abstract of Meeting Brochure on pp. 33, “Relativistic laser pulse compression in magnetized plasmas”, and pp. 65, “Enhancement of Electron-Positron Pair Production in Strong Fields by the Effect of Dynamically Assisted Multi-Slit Interference”.
[27] 2014 Invited talk, “Electron-Positron Pair Production in Ultrastrong Field”, Workshop on Strong Field Lasers and Charged Particles Acceleration, 16-18 April, Fangshan, Beijing, China.
[26] 2013 Participating, Workshop on Vacuum of Quantum Chromodynamics and Electroweak Theory in Strong Magnetic Field, 19-20 January 2013, Institute of Theoretical Physics, CAS, Beijing, China.
[25] 2012 Oral, “Strong Field QED and Electron-Positron Pair Production”, The CCAST-WL Workshop on Strong Field Laser Physics, 26-29 Oct 2012, Tongxiang, Zhejiang Province, China.
[24] 2012 Invited talk, “Bubble electrons acceleration and optimization in plasma driven by strong laser field”, International Workshop on Simulation and Experimental Studies on the properties of matter under extreme conditions, 13-14 January, 2012, Beijing Computational Science Research Center, Beijing, China.
[23] 2011 Invited talk, “Electron-Positron Pair Production from Vacuum in Strong Field”, Workshop on Charged Particles Acceleration Driven by Intense Laser Fields, 15-16 Dec 2011 at Beijing Normal University, Beijing, China.
[22] 2011 Invited talk, “Electrons acceleration and possible optimum in plasma bubble regime driven by ultraintense laser”, Sino-German Symposium on Laser Acceleration and Applications of Lasers at Accelerators 2011 (LAALA 2011), 5-8 December, 2011, Beijing, China (Supported by the Sino-German Center for the Promotion of Science).
[21] 2011 Invited talk, “Electron-positron pair production of vacuum in an elliptic polarized time varying field”, International Workshop on Computational Challenges for Complex Physical Systems under Extreme Conditions, 27-29 October, 2011, Beijing Computational Science Research Center, Beijing, China.
[20] 2011 Oral, “Studies on bubble acceleration of laser driven plasma”, Proceedings of the 15th National Conference on Plasma Science and Technology, 8-10 August 2011, Yellow Mountain, Anhui Province, China. See also the Abstract of Meeting Brochure: D13, pp 138.
[19] 2010 Invited talk, “Bubble Acceleration in Laser Driven Plasma”, The 14th National Conference of Nuclear Physics, 1-6 Nov 2010, Hefei, Anhui Province, China.
[18] 2010 Oral, “Electron resonance acceleration under inhomogeneous magnetic field and intense laser field”, The CCAST-WL Workshop on Strong Field Laser Physics, 25-29 Oct 2010, Jiading, Shanghai, China.
[17] 2010 Invited tutorial lecture, “Electron acceleration in wake bubble by ultraintense laser interacting with plasma”, 5th Asia Summer School and Symposium on Laser-Plasma Acceleration and Radiation, 16-20 Agu. 2010, Shanghai, China. See also the Meeting Brochure, pp.35.
[16] 2009 Invited talk, “Strong Field Acceleration of Charged Particles in the Group of Beijing Normal University”, Workshop on Electrons and Ions Acceleration under Intense Laser Fields, 17-18 Dec 2009 at Beijing Normal University, Beijing, China.
[15] 2009 Invited talk, “Electrons Bubble Acceleration by Intense Laser Interaction with Plasma”, 1st National High Energy Density Physics, 2-5 December 2009, Chengdu, Sichuang Province, China. See also the Abstract of Meeting Brochure on pp. 13.
[14] 2008 Invited talk, “Electrons and Ions Acceleration by Ultraintense Laser Interaction with Plasmas”, International West Lake Workshop on Fusion Theory and Simulation, 25-27 December 2008, Hangzhou, Zhejiang Province, China. See also the Abstract of Meeting Brochure on pp. 19.
[13] 2008 Participating, International Committee on Ultra-High Intensity Lasers, ICUIL’08, 27-31 2008, Tongli, Jiangsu Province, China.
[12] 2008 Oral, “Electron Acceleration in Vacuum by Ultraintense Subcycle Laser Pulse”, The CCAST-WL Workshop on Strong Field Laser Physics, 23-26 Oct 2008, Qingdao, Shandong Province, China.
[11] 2007 Invited talk, “Strong Electromagnetic Solitons and Electrons Acceleration in the First Cycle of Wakefield”, Workshop on Electrons and Ions Acceleration by Ultrastrong Laser Interacting with Plasma, 10-11 Dec 2007, CCAST, Beijing, China.
[10] 2007 Oral, “Studies on Solitons and Accelerations by Intense Laser Fields”, Annual Autumn Conference of Chinese Physical Society, CPS 2007, 18-20 Sep 2007, Nanjing, Jiangsu Province, China.
[9] 2007 Invited talk, “Solitons and Accelerations in Relativistic Plasmas”, WISER Workshop on Nonlinear Plasma Dynamics, 5-7 Sep 2007, Shanghai, China
[8] 2006 Poster, “Spectrum of electromagnetic solitons in plasma”, Asian Summer School on Laser Plasma Acceleration and Radiations, 7-11 August, 2006, Beijing, China. See also the Abstract of Meeting Brochure on pp. 15.
[7] 2005 Invited talk, “Correlated Motion of Two Particles in Complex Fluid”, Research Forum: Structures of Complex System, Nonlinear Dynamics and Statistical Physics, 21-25 Nov. 2005, CCAST, Beijing. See also the Abstract of Meeting Brochure on pp. 7: E-3.
[6] 2002 Invited talk, “Solitons in Relativistic Laser Plasmas Interaction”, International Workshop on Nonlinear Science, 20-22 May 2002, Dalian, Liaoning Province, China.
[5] 2001 Oral talk, “Optimum Effect of Asymmetric Laser Pulse Shape on Relativistic Laser-Plasma Wake Field”, Proceedings of the 10th National Conference on Plasma Science and Technology & National Youth Symposium on Plasma, 14-21 Oct 2001, Changsha, China.
[4] 2001 Invited talk, “Dust acoustic waves in collisional plasmas with highly correlated dusts”, International Topical Conference on Plasma Physics: Colloidal Plasma Science, 3-7 July 2000, Miramare, Trieste, Italy. See also the publication specially for this Meeting, B. S. Xie and M. Y. Yu, PHYS SCRIPTA T89: 138-141 2001.
[3] 1999 Invited talk, “Advances on Nonlinear Waves of Dusty Plasmas”, 1st Seminar of Youth Scholar on Plasma Science, 23-25 Aug. 1999, Hefei, Anhui Province.
[2] 1999 Poster, “Dust-acoustic Solitons in Dusty Plasmas”, Dynamics Days Asia-Pacific: First International Conference on Nonlinear Science, Hong Kong Baptist University, Hong Kong, 13-16, July, 1999. See also the Abstracts of the meeting brochure on pp118, P4-10.
[1] 1998 Poster, “Viscoelastic Hydrodynamics for Debye Shielding and Correlation Function in Strongly Coupled Dusty Plasma”, Proceedings of the First General Assembly of Asian Plasma and Fusion Association Joint with the Third Asia Pacific Plasma Theory Conference, Fragrant Hill, Beijing, China, 21-25 September, 1998. See also the publication for this meeting, Xie Baisong, He Kaifen and Huang Zuqia, Chin. Phys. Lett. (Proc. APFA & APPTC) pp268-271.