[1] [1] A Plastino, A R Plastino, C Tsallis. Ehrenfest theorem and information theory [J]. Phys Lett A, 1993, 177(3)：177-179.

[2] [2] A Lavagno, G Kaniadakis, M Rego-Monteiro, et al.. Nonextensive thermo-statistical approach of the peculiar velocity function of galaxy clusters [J]. Astrophys Lett, 1998, 35(1): 449-451.

[3] [3] K I Nishikawa, P Hardee, G Pichardson, et al.. Particle acceleration and magnetic field generation in electron-positron relativistic shocks [J]. Astrophys Journal, 2005, 62 (2): 927-937.

[4] [4] S Iwamoto, F Takahapa. Relativistic outflow of electron- positron pair plasma from a Wien equilibrium state [J]. Astrophys Journal, 2002, 56 (5): 163-173.

[5] [5] K Hirotani, M Kimura, S Iguchi, et al.. Pair plasma dominance in the parsec-scale relativistic jet of 3C 345 [J]. Astrophys Journal, 2000, 54(5): 100-106.

[6] [6] M Gell- Mann, C Tsallis. Nonextensive Entropy- Inter Disciplinary Applications [M]. New York: Oxford University Press, 2004.

[7] [7] Guo Xun, Guo Kaimin, Song Xiaowei, et al.. Plasma characteristics of metal Fe ablated by pulsed laser [J]. Chinese J Lasers, 2010, 37(3): 877-881.

[8] [8] Yu Dingchen, Hao Xiaofei, Hao Dongshan. Influence of filter wave of plasma photonic crystals with tunable defect produced by Compron scattering [J]. Chinese J Lasers, 2011, 38(10): 1006001.

[9] [9] Liu Huixia, Yang Shengjun, Wang Xiao, et al.. Experiment study and numerical simulation of pulsed laser ablation crater [J]. Chinese J Lasers, 2009, 36(1): 219-223.

[10] [10] Wen Hua, Hao Xiaofei, Hao Dongshan. Influence of initial plasma temperature on proton generation under Compton scattering [J]. Laser & Optoelectronics Progress, 2012, 49(8): 081902.

[11] [11] Yao Ruxian, Hao Xiaofei, Hao Dongshan. Influence of Compton scattering to the density and temperature characteristics of band gap structure for un-magnetized plasma photonic crystals[J]. Laser & Optoelectronics Progress, 2011, 48(11): 111601.

[12] [12] R G Greaves, C M Surko. An electron-positron beam-plasma experiment [J]. Phys Rev Lett, 1995, 75(21): 3846-3849.

[13] [13] H Hasegawa, S Irie, S Usami, et al.. Perpendicular nonlinear waves in an electron- positron- ion plasma [J]. Phys Plasmas, 2002, 9(6): 2549-2552.

[14] [14] H K Avetissian, A K Avetissian, G F Mkrchian, et al.. Electron- positron pair production in the field of superstrong oppositely directed laser beams [J]. Phys Rev E, 2002, 66(1): 016502.

[15] [15] R Alkofer, M B Hecht, C D Roberts, et al.. Pair creation and an X-ray free electron laser [J]. Phys Rev A, 2001, 87(19): 193902.

[16] [16] E W Laing, D A Diver. Relativistic Landau damping of longitudinal waves in isotropic pair plasmas [J]. Phys Plasma, 2006, 13(9): 092115.

[17] [17] E W Laing, D A Diver. Damped Bernstein modes in a weakly relativistic pair plasma [J]. Phys Rev E, 2005, 72 (3): 036409.

[18] [18] V M Bannur. 3Self- consistent quasi particle model results for ultrarelativistic electron- positron thermodynamic plasma [J]. Phys Rev E, 2006, 73(6): 067401.

[19] [19] Liu Sanqiu, Chen Xiaochang. Dispersion relation of longitudinal oscillation in relativistic plasmas with- nonextensive distribution [J]. Physica A, 2011，390 (9): 1704-1712.

[20] [20] Liu Sanqiu, Chen Xiaochang. Dispersion relation of transverse oscillation in relativistic plasmas with nonextensive distribution[J]. J Plasma Phys, 2011, 77(5): 653-662.

[21] [21] Liao Yanli, Liu Sanqiu, Wang Hao. Transverse dispersion law of electron- positron plasma in ultra- relativistic regime [J]. High Power Laser and Particle Beams, 2008, 20(5): 751-754.

[22] [22] Li Jun. Transverse oscillation in relativistic electron- positron plasma with q- distribution [J]. High Power Laser and Particle Beams, 2013, 25(4): 1009-1012.

[23] [23] Kong Qing, Zhu Lijun, Wang Jiaxiang, et al.. Electron dynamics in the extra- intense stationary laser field [J]. Acta Physics Sinica, 1999, 48(4): 650-660.

[24] [24] HaoDongshan. Effect of Compton scattering on prohibited band gaps for 1-D ternary un-magnetized plasma photonic crystals [J]. Laser Technology, 2013, 37(4): 515-518.