[1] Zhang S Y. Applied Acoustics,1992,11(4):1～6

[2] Zhang S Y. International Academic Trends,1998,(8):58～60

[3] Zhang X R. Applied Acoustics,2000,19(5):1～9

[4] Miao R C,Teng X L,Ye Q. Acta Photonica Sinica,2003,32(10):1264～1267

[5] Chen C L,Song Z M,Zhang B Q. Acta Photonica Sinica,1996,25(8):749～754

[6] Jin Huang,Yasuaki Nagata. Laser-based ultrasonics for flaw detection. Ultrasonics Symposium,1994,2 (1-4):1205～1209

[7] Clorennec D,Royer D,Catheline S. Saw propagation on propagation on cylindrical parts using laser-ultrasonics:application to crack detection. Ieee Ultrasonics Symposium,2002,1(8-11):207～210

[8] Clorennec D,Royer D,Walaszek H. Nondestructive evaluation of cylindrical parts using laser ultrasonics.Ultrasonics,2002,40(1) :783～789

[9] Guan Jianfei,Shen Zhonghua,Xu Baiqiang. Finite element analysis of laser-generated rayleigh wave scattering by cracks in a plate. Acta Photonica Sinica,2005,34 (8):1128～1132

[10] Gusev V,Desmet C,Lauriks W,et al. Theory of Scholte,Leaky rayleigh,and lateral wave excitation via the laser-induced thermoelastic effect. J Acoust Soc Am,1996,100(3):1514～1528

[11] Desmet C,Gusev V,Lauriks W,et al. Laser-induced thermoelastic excitation of scholte waves. Appl Phys Lett,1996,69(21):2939～2941

[12] Rostyene K,Glorieux C,Gao W,et al. Laser ultrasonic measurements of acoustic waves generated at solid-liquid interfaces. Acta Physica Sinica,1999,8(supplement) :219～224

[13] Hu W X,Qian M L. Science in China (Series G),2003,33(6):509～514

[14] Lu J,Hou R,Chen J P,et al. A new detection technique for laser-generated Rayleigh wave pulses. Optics Communications,2001,195(1-4):221～224