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Chin. Phys. B, 2011, Vol. 20(7): 074209    DOI: 10.1088/1674-1056/20/7/074209
ELECTROMAGNETISM, OPTICS, ACOUSTICS, HEAT TRANSFER, CLASSICAL MECHANICS, AND FLUID DYNAMICS Prev   Next  

Numerical simulation of the modulation to incident laser by the repaired damage site in a fused silica subsurface

Li Li(李莉)a), Xiang Xia(向霞)a)b), Zu Xiao-Tao(祖小涛)a), Wang Hai-Jun(王海军) b), Yuan Xiao-Dong(袁晓东)b), Jiang Xiao-Dong(蒋晓东)b), Zheng Wan-Guo(郑万国) b), and Dai Wei(戴威)b)
a Institute of Physics and Electronics, University of Electronic Science and Technology of China, Chengdu 610054, China; b Research Center of Laser Fusion, China Academy of Engineering Physics, Mianyang 621900, China
Abstract  One of the main factors of laser induced damage is the modulation to incident laser which is caused by the defect in the subsurface of the fused silica. In this work, the repaired damage site irradiated by CO2 laser is simplified to a Gaussian rotation according to the corresponding experimental results. Then, the three-dimensional finite-difference time-domain method is employed to simulate the electric field intensity distribution in the vicinity of this kind of defect in fused silica front subsurface. The simulated results show that the modulation is notable, the Emax is about 2.6 times the irradiated electric field intensity in the fused silica with the damage site (the width is 1.5 μm and depth is 2.3 μm) though the damage site is repaired by CO2 laser. The phenomenon and the theoretical result of the annular laser enhancement existed on the rear surface are first verified effectively, which agrees well with the corresponding experimental results. The relations between the maximal electric field intensity in fused silica with defect depth and width are given respectively. Meanwhile, the corresponding physical mechanism is analysed theoretically in detail.
Keywords:  laser-induced damage      fused silica      repaired damage site      three-dimensional finite-difference time-domain  
Received:  04 November 2010      Revised:  07 January 2011      Accepted manuscript online: 
PACS:  42.60.Jf (Beam characteristics: profile, intensity, and power; spatial pattern formation)  
  42.62.-b (Laser applications)  
  42.70.Ce (Glasses, quartz)  
  46.15.-x (Computational methods in continuum mechanics)  

Cite this article: 

Li Li(李莉), Xiang Xia(向霞), Zu Xiao-Tao(祖小涛), Wang Hai-Jun(王海军), Yuan Xiao-Dong(袁晓东), Jiang Xiao-Dong(蒋晓东), Zheng Wan-Guo(郑万国), and Dai Wei(戴威) Numerical simulation of the modulation to incident laser by the repaired damage site in a fused silica subsurface 2011 Chin. Phys. B 20 074209

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