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CO2激光局域辐照对熔石英损伤特性的影响

刘春明 杨亮 晏中华 蒋勇 王海军 廖威 向霞 贺少勃 吕海兵 袁晓东 郑万国 祖小涛

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CO2激光局域辐照对熔石英损伤特性的影响

刘春明, 杨亮, 晏中华, 蒋勇, 王海军, 廖威, 向霞, 贺少勃, 吕海兵, 袁晓东, 郑万国, 祖小涛

The influence of CO2 laser local irradiation on the laser damage resistance of fused silica

Liu Chun-Ming, Yang Liang, Yan Zhong-Hua, Jiang Yong, Wang Hai-Jun, Liao Wei, Xiang Xia, He Shao-Bo, Lü Hai-Bin, Yuan Xiao-Dong, Zheng Wan-Guo, Zu Xiao-Tao
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  • 研究了CO2激光局域辐照对熔石英损伤特性的影响, 发现当辐照中心温度较低时(1139 K), 辐照对损伤阈值没有明显影响, 但辐照中心温度较高时(1638 K), 辐照对损伤阈值有明显的影响, 损伤阈值随距离辐照中心间距的增大而减小, 在残余应力产生光程差最大处附近, 损伤阈值降到最小, 随着与辐照中心间距的进一步增加, 损伤阈值略有上升. 对导致此现象的原因做了分析. 由于残余应力的存在, 在辐照中心发生再损伤产生的裂纹后, 裂纹先沿径向扩展, 在残余应力产生光程差最大处附近, 裂纹转而向切向扩展, 这可能与径向和环向张应力随半径的变化有关. 在采用热处理炉退火消除残余应力时, 必须注意元件的洁净处理, 否则退火会出现析晶现象, 对损伤阈值和透射率造成不良影响.
    The influence of CO2 laser local irradiation (CLLI) on the laser damage resistance of fused silica was studied. It is found that CLLI has no evident effect on the laser-induced damage threshold (LIDT) of fused silica when the temperature of irradiation center is low (1139 K). However, the influence of CLLI on LIDT becomes important when the temperature of irradiation center is higher (1638 K). AT first, LIDT decreases with r increasing from zero to rM, where r is the distance to irradiation center, and rM is the distance at which the residual stress-induced phase retardance reaches the maximum. Then, LIDT increases a little when r is larger than rM. The origin of this phenomenon is discussed. Due to the residual stress, re-initiated damage in irradiation region can result in the formation of fractures. The fractures due to the re-initiated damage at irradiation center transport along radial direction firstly, and then transport along the tangential direction near rM. This may be due to the maximum tensile hoop stress and radial stress dependence of radius. Cares should be taken for the optical cleaning when thermal oven annealing is used to eliminate the residual stress. Otherwise, crystallization can be induced by contamination during annealing. The contamination also has negative impact on the light transmission and LIDT.
    • 基金项目: 国家自然科学基金(批准号:10904008),国家高技术研究发展项目(批准号:2008AA8040508)和中央高校基本科研业务费(批准号:ZYGX2011J043)资助的课题.
    • Funds: Project supported by the National Natural Science Foundation of China (Grant No 10904008), the National High Technology Research and Development Program of China (Grant No. 2008AA8040508), and the Fundamental Research Funds for the Central Universities, China (Grant No. ZYGX2011J043).
    [1]

    Temple R A, Lowdermilk W H, Milam D 1982 Appl. Opt. 21 3249

    [2]

    Burnham A K, Hackel L, Wegner P, Parham T, Hrubesh L, Penetrante B, Hitman P, Emos, Menapace J, Runkel M, Fluss M, Feit M, Key M, Biesiada T 2002 Lawrence Livermore Natioanl Laboratory Preprint UCRL-JC-144298

    [3]

    Menapace J A, Davis P J, Steele W A, Hachkowski M R, Nelson A, Xin K 2006 Lawrence Livermore Natioanl Laboratory UCRL-Conf-225806

    [4]

    Menapace J A 2010 LLNL-PROC 461456

    [5]

    Adams J J, Bolourchi M, Bude J D, Guss G M, Matthews M J, Nostrand M C 2010 Proc of SPIE 7842 784223

    [6]

    Guss G, Bass I, Draggoo V, Hackel R, Payne S, Lancaster M, Mak P 2007 Proc of SPIE 6403 64030M

    [7]

    During, A Bouchut P, Coutard J G 2007 Proc of SPIE 6403 640323

    [8]

    Bass I L, Guss G M, Nostrand M J, Wegner P J 2010 Proc of SPIE 7842 784220

    [9]

    Gallais L, Cormont P, Rullier J L 2009 Opt. Express 17 23488

    [10]

    Matthews M J, Stolken J S, Vignes R M, Norton M A, Yang S, Cooke J D, Guss G M, Adams J J 2009 Proc of SPIE 7504 750410

    [11]

    Xiang X, Zheng W G, Yuan X D, Jiang Y, Dai W, Huang J, Wang H J, Li X B, Lü H B, He S B, Zu X T 2011 High Power Laser and Particle Beams 23 2396 (in Chinese) [向霞, 郑万国, 袁晓东, 蒋勇, 戴威, 黄进, 王海军, 李熙斌, 吕海兵, 贺少勃, 祖小涛 2011 强激光与粒子束 23 2396]

    [12]

    Feit M D, Rubenchik A M 2002 Lawrence Livermore national laboratory Preprint UCRL-JC-148580

    [13]

    Liu C M, Jiang Y, Luo C S, Shi X Y, Ren W, Xiang X, Wang H J, He S B, Yuan X D, Lü H B, Zheng W G, Zu X T 2012 Chin. Phys. Lett. 29 044211

    [14]

    Li L, Xiang X, Zu X T, Wang H J, Yuang X D, Jiang X D, Zheng W G, Dai W 2011 Chin. Phys. B 20 074209

    [15]

    Liu H J, Huang J, Wang F R, Zhou X D, Jiang X D, Wu W D 2010 Acta. Phys. Sin. 59 1308 (in Chinese) [刘红婕, 黄进, 王凤蕊, 周信达, 蒋晓东, 吴卫东 2010 59 1308]

  • [1]

    Temple R A, Lowdermilk W H, Milam D 1982 Appl. Opt. 21 3249

    [2]

    Burnham A K, Hackel L, Wegner P, Parham T, Hrubesh L, Penetrante B, Hitman P, Emos, Menapace J, Runkel M, Fluss M, Feit M, Key M, Biesiada T 2002 Lawrence Livermore Natioanl Laboratory Preprint UCRL-JC-144298

    [3]

    Menapace J A, Davis P J, Steele W A, Hachkowski M R, Nelson A, Xin K 2006 Lawrence Livermore Natioanl Laboratory UCRL-Conf-225806

    [4]

    Menapace J A 2010 LLNL-PROC 461456

    [5]

    Adams J J, Bolourchi M, Bude J D, Guss G M, Matthews M J, Nostrand M C 2010 Proc of SPIE 7842 784223

    [6]

    Guss G, Bass I, Draggoo V, Hackel R, Payne S, Lancaster M, Mak P 2007 Proc of SPIE 6403 64030M

    [7]

    During, A Bouchut P, Coutard J G 2007 Proc of SPIE 6403 640323

    [8]

    Bass I L, Guss G M, Nostrand M J, Wegner P J 2010 Proc of SPIE 7842 784220

    [9]

    Gallais L, Cormont P, Rullier J L 2009 Opt. Express 17 23488

    [10]

    Matthews M J, Stolken J S, Vignes R M, Norton M A, Yang S, Cooke J D, Guss G M, Adams J J 2009 Proc of SPIE 7504 750410

    [11]

    Xiang X, Zheng W G, Yuan X D, Jiang Y, Dai W, Huang J, Wang H J, Li X B, Lü H B, He S B, Zu X T 2011 High Power Laser and Particle Beams 23 2396 (in Chinese) [向霞, 郑万国, 袁晓东, 蒋勇, 戴威, 黄进, 王海军, 李熙斌, 吕海兵, 贺少勃, 祖小涛 2011 强激光与粒子束 23 2396]

    [12]

    Feit M D, Rubenchik A M 2002 Lawrence Livermore national laboratory Preprint UCRL-JC-148580

    [13]

    Liu C M, Jiang Y, Luo C S, Shi X Y, Ren W, Xiang X, Wang H J, He S B, Yuan X D, Lü H B, Zheng W G, Zu X T 2012 Chin. Phys. Lett. 29 044211

    [14]

    Li L, Xiang X, Zu X T, Wang H J, Yuang X D, Jiang X D, Zheng W G, Dai W 2011 Chin. Phys. B 20 074209

    [15]

    Liu H J, Huang J, Wang F R, Zhou X D, Jiang X D, Wu W D 2010 Acta. Phys. Sin. 59 1308 (in Chinese) [刘红婕, 黄进, 王凤蕊, 周信达, 蒋晓东, 吴卫东 2010 59 1308]

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出版历程
  • 收稿日期:  2012-11-27
  • 修回日期:  2012-12-30
  • 刊出日期:  2013-05-05

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