[1] [1] Zhang Shuyi. Laser ultrasound and materials nondestructive evaluation［J］. Applied Acoustic, 1992, 11(4): 1～6

[2] [2] Zhang Shuyi. New techniques in ultrasound nondestructive evaluation［J］. International Academic Trends, 1998, (8): 58～60

[3] [3] F. Decremps, L. Belliard, B. Perrin et al.. Sound velocity and absorption measurements under high pressure using picosecond ultrasonics in a diamond anvil cell: application to the stability study of AlPdMn［J］. Phys. Rev. Lett., 2008, 100(3): 035502

[4] [4] M. Armstrong, J. Crowhurst, E. Reed et al.. Ultrafast high strain rate acoustic wave measurements at high static pressure in a diamond anvil cell ［J］. Appl. Phys. Lett., 2008, 92(10): 101930

[5] [5] Chigarev Nikolay, Zinin Pavel, Chungming Li et al.. Laser generation and detection of longitudinal and shear acoustic waves in a diamond anvil cell［J］. Appl. Phys. Lett., 2008, 93(18): 181905

[6] [6] F. Decremps, L. Belliard, B. Couzinet et al.. Liquid mercury sound velocity measurements under high pressure and high temperature by picosecond acoustics in a diamond anvils cell［J］. Rev. Sci. Instrum., 2009, 80(7): 073902

[7] [7] Yuki Asahara, Motohiko Murakami, Yasuo Ohishi et al.. Sound velocity measurement in liquid water up to 25 GPa and 900 K: Implications for densities of water at lower mantle conditions［J］. Earth and Planetary Science Letters, 2010, 289(3): 479～485

[8] [8] Baiqiang Xu, Zhonghua Shen, Xiaowu Ni et al.. Numerical simulation of laser-induced ultrasonic by finite element method［J］. J. Appl. Phys., 2004, 95(4): 2116～2123

[9] [9] Shen Zhonghua, Xu Baiqiang, Ni Xiaowu et al.. Numerical simulation of pulsed induced ultrasound in monolayer and double layer materials［J］. Chinese J. Lasers, 2004, 31(10): 1275～1280

[10] [10] Jijun Wang, Zhonghua Shen, Baiqiang Xu et al.. Numerical simulation of laser-generated Lamb wave in transversely isotropic composite material by using the finite element method［J］. Chin. Opt. Lett., 2005, 3(s1): 308～310

[11] [11] Wang Jijun, Shen Zhonghua, Ni Xiaowu et al.. Analysis on precursor in laser ultrasonic in metal and non-metallic materials［J］. Chinese J. Lasers, 2006, 33(8): 1127～1132

[12] [12] Jijun Wang, Zhonghua Shen, Xiaowu Ni et al.. Numerical simulation of laser-generated surface acoustic waves in the transparent coating on a substrate by the finite element method［J］. Optical and Laser Technology, 2007, 39(1): 21～28

[13] [13] Xu Chengguang, Xu Baiqiang, Xu Guidong et al.. Numerical simulation of the laser-generated ultrasound at the fluid-solid interface by finite element method［J］. Chinese J. Lasers, 2010, 37(7): 1885～1891

[14] [14] Sun Chengwei, Lu Qisheng, Fan Zhengxiu et al.. Effects of Laser Irradiation［M］. Beijing: National Defense Industry Press, 2002. 10～32

[15] [15] Shikai Xiang, Lingcang Cai, Fuqian Jing. Thermal properties of Al at high pressure and temperatures［J］. Phys. Rev. B, 2004, 70(17): 174102

[16] [16] Yi Wang, Dongquan Chen, Xinwei Zhang. Calculated equation of state of Al, Cu, Ta, Mo, and W to 1000 GPa［J］. Phys. Rev. Lett., 2000, 84(15): 3220～3223

[17] [17] Y. Sohn, S. Krishnaswamy. Mass spring lattice modeling of the scanning laser source technique［J］. Ultrasonics, 2002, 39(8): 543～551

[18] [18] C. B. Scruby, R. J. Dewhurst, D. A. Hutchins et al.. Quantitative studies of thermally generated elastic waves in laser-irradiated metals［J］. J. Appl. Phys., 1980, 51(2): 6210～6216

[19] [19] G. S. Taylor, D. A. Hutchinst, C. Edwards et al.. TEA-CO2 laser generation of ultrasonic in non metals［J］. Ultrasonics, 1990, 28(6): 343～349