论文信息 - Safe criterions for front-surface digs in fused silica optics

Safe criterions for front-surface digs in fused silica optics

A kind of defects on the incident surfaces of fused silica optics are reported having the potential to initiate the damages on the exit surfaces in the final optical assembly in high power lasers. In this light, the new safe criterions for defects on the incident surfaces are proposed to avoid the detrimental modulation effects in downstream.

Simin Zhang | Youen Jiang | Xuechun Li | Wei Fan | Li Zhou

[1] Jerome M. Auerbach,et al. NIF final optics system: frequency conversion and beam conditioning , 2004, SPIE LASE.

[2] L. Lamaignère,et al. Modeling surface defects in fused silica optics for laser wave propagation , 2015 .

[3] Wei Chen,et al. Systematic investigation on light intensification by typical subsurface cracks on optical glass surfaces. , 2013, Applied optics.

[4] Laurent Lamaignère,et al. Damage growth in fused silica optics at 351 nm: refined modeling of large-beam experiments , 2014 .

[5] N. Bloembergen. Role of cracks, pores, and absorbing inclusions on laser induced damage threshold at surfaces of transparent dielectrics. , 1973, Applied optics.

[6] Dong Liu,et al. Design and performance of final optics assembly in SG-II Upgrade laser facility , 2018 .

[7] Zhi M Liao,et al. Probability of growth of small damage sites on the exit surface of fused silica optics. , 2012, Optics express.

[8] L. L. Wong,et al. HF‐Based Etching Processes for Improving Laser Damage Resistance of Fused Silica Optical Surfaces , 2011 .

[9] B. Lawn,et al. Indentation fracture: principles and applications , 1975 .

[10] F. Génin,et al. Role of light intensification by cracks in optical breakdown on surfaces. , 2001, Journal of the Optical Society of America. A, Optics, image science, and vision.