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Filamentation-induced bulk modification in fused silica by excimer laser
Zhang, Haibo; Yuan, Zhijun; Ye, Ren; He, Bing; Qi, Yunfeng; Zhou, Jun; zhijunyuan@siom.ac.cn; junzhousd@siom.ac.cn
2017
发表期刊Opt. Mater. Express
卷号7期号:10页码:3680
摘要Filamentary propagation and laser-induced damage have been demonstrated and investigated in fused silica excited by nanosecond deep-ultraviolet laser pulses. Long-range modification channels, up to 10 mm because of the filamentation and defect absorption in the bulk of the solid transparent materials, are observed. Here we investigate ways to control these laser-induced modifications by varying the laser pulse energy and number of exposures. The effects of objective lens focal length and working distance on the filament and modification are also discussed. Furthermore, the laser-induced fluorescence spectra indicate that dense absorbing defects in the damaged regions. Moreover, the mitigation of the induced damage through thermal effects are discussed.
文章类型Article
部门归属空间
DOI10.1364/OME.7.003680
资助者National Natural Science Foundation [61308024, 61405202]; National Science and Technology Major Project [2013ZX02202003]; National Key Research and Development Program [2016YFB0402201]; K. C. Wong Education Foundation; Program of Shanghai Technology Research Leader [17XD1424800]; Shanghai Sailing Program [17YF1421200]; Key technologies R& D program of Jiangsu [BE2014001, BE20160054]; Natural Science Foundation of Shanghai [16ZR1440100, 16ZR1440200] ; National Natural Science Foundation [61308024, 61405202]; National Science and Technology Major Project [2013ZX02202003]; National Key Research and Development Program [2016YFB0402201]; K. C. Wong Education Foundation; Program of Shanghai Technology Research Leader [17XD1424800]; Shanghai Sailing Program [17YF1421200]; Key technologies R& D program of Jiangsu [BE2014001, BE20160054]; Natural Science Foundation of Shanghai [16ZR1440100, 16ZR1440200] ; National Natural Science Foundation [61308024, 61405202]; National Science and Technology Major Project [2013ZX02202003]; National Key Research and Development Program [2016YFB0402201]; K. C. Wong Education Foundation; Program of Shanghai Technology Research Leader [17XD1424800]; Shanghai Sailing Program [17YF1421200]; Key technologies R& D program of Jiangsu [BE2014001, BE20160054]; Natural Science Foundation of Shanghai [16ZR1440100, 16ZR1440200] ; National Natural Science Foundation [61308024, 61405202]; National Science and Technology Major Project [2013ZX02202003]; National Key Research and Development Program [2016YFB0402201]; K. C. Wong Education Foundation; Program of Shanghai Technology Research Leader [17XD1424800]; Shanghai Sailing Program [17YF1421200]; Key technologies R& D program of Jiangsu [BE2014001, BE20160054]; Natural Science Foundation of Shanghai [16ZR1440100, 16ZR1440200]
收录类别SCI
资助者National Natural Science Foundation [61308024, 61405202]; National Science and Technology Major Project [2013ZX02202003]; National Key Research and Development Program [2016YFB0402201]; K. C. Wong Education Foundation; Program of Shanghai Technology Research Leader [17XD1424800]; Shanghai Sailing Program [17YF1421200]; Key technologies R& D program of Jiangsu [BE2014001, BE20160054]; Natural Science Foundation of Shanghai [16ZR1440100, 16ZR1440200] ; National Natural Science Foundation [61308024, 61405202]; National Science and Technology Major Project [2013ZX02202003]; National Key Research and Development Program [2016YFB0402201]; K. C. Wong Education Foundation; Program of Shanghai Technology Research Leader [17XD1424800]; Shanghai Sailing Program [17YF1421200]; Key technologies R& D program of Jiangsu [BE2014001, BE20160054]; Natural Science Foundation of Shanghai [16ZR1440100, 16ZR1440200] ; National Natural Science Foundation [61308024, 61405202]; National Science and Technology Major Project [2013ZX02202003]; National Key Research and Development Program [2016YFB0402201]; K. C. Wong Education Foundation; Program of Shanghai Technology Research Leader [17XD1424800]; Shanghai Sailing Program [17YF1421200]; Key technologies R& D program of Jiangsu [BE2014001, BE20160054]; Natural Science Foundation of Shanghai [16ZR1440100, 16ZR1440200] ; National Natural Science Foundation [61308024, 61405202]; National Science and Technology Major Project [2013ZX02202003]; National Key Research and Development Program [2016YFB0402201]; K. C. Wong Education Foundation; Program of Shanghai Technology Research Leader [17XD1424800]; Shanghai Sailing Program [17YF1421200]; Key technologies R& D program of Jiangsu [BE2014001, BE20160054]; Natural Science Foundation of Shanghai [16ZR1440100, 16ZR1440200]
WOS记录号WOS:000412046800022
引用统计
被引频次:1[WOS]   [WOS记录]     [WOS相关记录]
文献类型期刊论文
条目标识符http://ir.siom.ac.cn/handle/181231/28375
专题空间激光信息技术研究中心
通讯作者zhijunyuan@siom.ac.cn; junzhousd@siom.ac.cn
作者单位中国科学院上海光学精密机械研究所
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GB/T 7714
Zhang, Haibo,Yuan, Zhijun,Ye, Ren,et al. Filamentation-induced bulk modification in fused silica by excimer laser[J]. Opt. Mater. Express,2017,7(10):3680.
APA Zhang, Haibo.,Yuan, Zhijun.,Ye, Ren.,He, Bing.,Qi, Yunfeng.,...&junzhousd@siom.ac.cn.(2017).Filamentation-induced bulk modification in fused silica by excimer laser.Opt. Mater. Express,7(10),3680.
MLA Zhang, Haibo,et al."Filamentation-induced bulk modification in fused silica by excimer laser".Opt. Mater. Express 7.10(2017):3680.
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