[1] A. Babushkin, R. S. Craxton, S. Oskoui et al.. Demonstration of the dual-tripler scheme for increased- bandwidth third-harmonic generation[J]. Opt. Lett., 1998, 23(12): 927~929
[2] D. Eimerl, J. M. Auerbach, C. E. Barker et al..Multicrystal designs for efficient third-harmonic generation[J]. Opt. Lett., 1997, 22(16): 1208~1210
[3] P. J. Wegner, J. M. Auerbach. Frequency converter development for National Ignition Facility[J]. SPIE, 3492:392
[4] K.Osvay, I.N.Ross. Broadband sum-frequency generation by chirp-assisted group-velocity matching[J]. J. Opt. Soc. Am. B, 1996, 13(7):1431~1438
[7] D. M. Pennington, M. A. Henesian, S. N. Dixit et al.. Effect of bandwidth on beam smoothing and frequency conversion at the third harmonic of the Nova laser[J]. SPIE, 1870:175
[8] Paul R. Bolton , Cecile Limborg-Deprey. Incident IR bandwidth effects on efficiency and shaping for third harmonic generation of quasi-rectangular UV longitudinal profiles. 2005,LCLS-TN-05-29
[12] Liu Yunquan, Zhang Jie, Liang Wenxi et al.. Theoretical and experimental studies on third harmonic generation of femto second Ti :sapphire laser[J]. Acta Physica Sinica,2005, 54(4) :1593~1598
[13] Yang Yisheng, Zheng Wanguo, Han Wei et al.. Group-velocity-matching relation in the mixing process of broadband Third-Harmonic Generation[J]. Acta Physica Sinica,2007, 56(11) :6468~6472