Experimental investigation of enhancing the subsurface damage threshold of Nd-doped phosphate glass 被引量：3

Experimental investigation of enhancing the subsurface damage threshold of Nd-doped phosphate glass

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摘要 Experimental investigation was performed with a 1064-nm, 10-ns Nd：YAG laser to determine the effects of the surface hydrogen acid etching on laser damage, compared with damage of conventionally polished surface. The investigation was helpful for us to understand the negative effects of Nd-doped phosphate glass surface and subsurface damage （SSD） on laser induced damage threshold （LIDT）. A set of samples was polished, and then chemically etched in a cool buffered 10%HF ＋ 20%H2SO4 solution at different times. Another set of samples was ground and etched in the hot-buffered solution, and then polished. All the samples were irradiated with Nd： YAG laser and characterized by optical microscopy. Results of LIDT were obtained according to International standard ISO/DIS 11254-1.2. Chemical treatment can remove the contaminants in the polished re-deposition layer and the SSD for improving the laser damage resistance of Nd-doped phosphate glass surfaces. The method of using hot solution was more effective than that of using cool solution. Experimental investigation was performed with a 1064-nm, 10-ns Nd：YAG laser to determine the effects of the surface hydrogen acid etching on laser damage, compared with damage of conventionally polished surface. The investigation was helpful for us to understand the negative effects of Nd-doped phosphate glass surface and subsurface damage （SSD） on laser induced damage threshold （LIDT）. A set of samples was polished, and then chemically etched in a cool buffered 10%HF ＋ 20%H2SO4 solution at different times. Another set of samples was ground and etched in the hot-buffered solution, and then polished. All the samples were irradiated with Nd： YAG laser and characterized by optical microscopy. Results of LIDT were obtained according to International standard ISO/DIS 11254-1.2. Chemical treatment can remove the contaminants in the polished re-deposition layer and the SSD for improving the laser damage resistance of Nd-doped phosphate glass surfaces. The method of using hot solution was more effective than that of using cool solution.

作者胡俊江杨镜新陈伟周常河

机构地区 Institute of Optics and Fine Mechanics

出处《Chinese Optics Letters》 SCIE EI CAS CSCD 2008年第9期681-684,共4页 中国光学快报（英文版）

关键词 ACIDS Glass Hydrogen Laser damage LASERS NEODYMIUM Acids Glass Hydrogen Laser damage Lasers Neodymium

分类号 TN248.1 [电子电信—物理电子学]

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Chinese Optics Letters

2008年第9期

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