Influence of the high-repetition-pulsed laser beam size on the damage characteristics of absorbing glass

Han Jing-Hua; Feng Guo-Ying; Yang Li-Ming; Zhang Qiu-Hui; Fu Yu-Qing; Niu Rui-Hua; Zhu Qi-Hua; Xie Xu-Dong; Zhou Shou-Huan

doi:10.7498/aps.60.028106

Abstract

The influence of the beam size of pulsed laser on damage morphology of absorbing glass, as well as the mechanism of the damage produced by high-repetition-pulsed laser (kHz magnitude), is investigated. We show that the damage morphology changes greatly with the decrease of the beam size under the condition that the energy of each individual pulse,the number of the pulses incident on the glass and the repetition frequency are kept invariant. The damage is induced by melting of the glass material due to dispersed energy of the incident laser with large beam size. With decreased beam size of laser, the material will break resulting from the melting and evaporating of glass induced by the densing and increasingly deposited laser energy in glass material. When the beam size is further reduced, too intensive laser will penetrate the dielectric material on the surface of glass. As a result, the laser induced plasma shock wave occurs. In addition, the super-heated liquid at the center where the laser beam interacts with glass will be produced as a consequence of the tremendous deposited laser energy. When the threshold of phase explosion is reached, the mixture of the evaporated, melted and original solid materials will blast outwards. Consequently, characteristic morphology made up of three regions covered with solid granules of original glass material and the re-crystallized material of the evaporated and melted glass will form around the damage crater.

Keywords:

Authors and contacts

(1)College of Electronics and Information Engineering, Sichuan University, Chengdu 610064, China; (2)College of Electronics and Information Engineering, Sichuan University, Chengdu 610064, China;Research Center of Laser Fusion, China Academy of Engineering Physics, Mianyang 621900, China; (3)Research Center of Laser Fusion, China Academy of Engineering Physics, Mianyang 621900, China

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Cited By

[1]	Wen S C, Fan S C 2000 Acta Phys. Sin. 49 1282 (in Chinese) [文双春、范滇元 2000 49 1282]
[2]	Kitriotis D, Merkle L D 1989 Appl. Opt. 28 949
[3]	Liu W Q, Shen J, Sun X M, Wang H H 2009 Chin. Phys. B 18 1040
[4]	Feng X Q, Han B G 1999 Acta Phys. Sin. 48 1282 (in Chinese)[冯锡淇、韩宝国 1999 48 1282]
[5]	Stuart B C, Feit M D, Herman S, Rubenchik A M, Shore B W, Perry M D 1996 Phys. Rev. B 53 1749
[6]	Xiao Z Y, Luo W Y, Wang T Y 2007 Acta Phys. Sin. 56 2731 (in Chinese) [肖中银、罗文芸、王廷云 2007 56 2731]
[7]	Eronko S B, Zhurkov S N, Chmel A 1978 Soviet Phys. Solid State 20 2064
[8]	Yoo J H, Jeong S H, Mao X L, Greif R, Russo R E 2000 Appl. Phys. Lett.76 783
[9]	Bleiner D, Bogaerts A 2006 Spec. Acta Part B: Atom. Spec. 61 421
[10]	Lu Q, Mao S S, Mao X, Russo R E 2002 Appl. Phys.Lett. 80 3072
[11]	Lu Q M 2003 Phys. Rev. E 67 016410
[12]	Yoo J H, Jeong S H, Greif R, Russo R E 2000 J. Appl. Phys. 88 1638
[13]	Chen Z, Bogaerts A, Vertes A 2006 Appl. Phys. Lett. 89 041503
[14]	Yang T Y B, Kraer W L, More R M, Langdon A B 1995 Phys.Plasmas 2 3146
[15]	Allcock G, Dyer P E, Elliner G, Snelling H V 1995 J. Appl. Phys. 78 7295
[16]	Matthias E, Reichling M, Siegel J, Kding O W, Petzoldt S, Skurk H, Bizenberger P, Neske E 1994 Appl. Phys. A: Mater. Sci. Proc. 58 129
[17]	Porneala C, Willis D A 2006 Appl. Phys.Lett. 89 211121.
[18]	Pakhomov A V, Thompson M S, Gregory D A 2003 J. Phys. D: Appl. Phys. 36 2067
[19]	Xu X 2002 Appl. Surf. Sci. 197 61
[20]	Yang T Y B, Kruer W L, More R M, Langdon A B 1995 Phys. Plasmas 2 3146
[21]	Rethfeld B, Sokolowski-Tinten K, Linde D von der 2004 Appl. Phys.A: Mater. Sci. Proc. 79 767
[22]	Pamela K. W, Bletzer K, James L H, Francois Y G, Hester M, Yoshiyama J M 1999 SPIE 3578 681
[23]	Ou Q, Chen J G, Zhang W, Lan L, Feng G Y 2006 Opt. Las. Tech. 38 631
[24]	Han J H 2009 Ph.D. Dissertation (Chengdu:Sichuan University) (in Chinese) [韩敬华 2009 博士学位论文(成都: 四川大学)]

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Vol. 60, Issue 2 - 2011-01-20

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