红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2013年
3期
742-746
,共5页
季一勤%姜玉刚%刘华松%王利栓%刘丹丹%姜承慧%羊亚平%樊荣伟%陈德应
季一勤%薑玉剛%劉華鬆%王利栓%劉丹丹%薑承慧%羊亞平%樊榮偉%陳德應
계일근%강옥강%류화송%왕리전%류단단%강승혜%양아평%번영위%진덕응
低损耗高反膜%热处理%光学特性%输出特性
低損耗高反膜%熱處理%光學特性%輸齣特性
저손모고반막%열처리%광학특성%수출특성
low loss high reflective coating%thermal treatment%optical properties%output properties
低损耗激光薄膜反射镜是环形激光器谐振腔的关键元件之一,首先设计和制备了工作角度为45毅的低损耗高反膜.为了提高低损耗高反膜的光学性能,采用高温热处理的方式,研究了热处理对低损耗高反膜的透射率、散射系数、表面粗糙度、相移等特性的影响.高温热处理对高反膜的散射系数、表面粗糙度影响较小,随着热处理温度的增加,高反膜相移逐渐降低.当退火温度为550益时,环形激光器输出性能稳定性最好,当工作230 h后,输出能量仅下降到初始值的90.5%.实验结果表明,采用合适的热处理方式,可以有效改善低损耗高反膜特性以及环形激光器的输出性能.
低損耗激光薄膜反射鏡是環形激光器諧振腔的關鍵元件之一,首先設計和製備瞭工作角度為45毅的低損耗高反膜.為瞭提高低損耗高反膜的光學性能,採用高溫熱處理的方式,研究瞭熱處理對低損耗高反膜的透射率、散射繫數、錶麵粗糙度、相移等特性的影響.高溫熱處理對高反膜的散射繫數、錶麵粗糙度影響較小,隨著熱處理溫度的增加,高反膜相移逐漸降低.噹退火溫度為550益時,環形激光器輸齣性能穩定性最好,噹工作230 h後,輸齣能量僅下降到初始值的90.5%.實驗結果錶明,採用閤適的熱處理方式,可以有效改善低損耗高反膜特性以及環形激光器的輸齣性能.
저손모격광박막반사경시배형격광기해진강적관건원건지일,수선설계화제비료공작각도위45의적저손모고반막.위료제고저손모고반막적광학성능,채용고온열처리적방식,연구료열처리대저손모고반막적투사솔、산사계수、표면조조도、상이등특성적영향.고온열처리대고반막적산사계수、표면조조도영향교소,수착열처리온도적증가,고반막상이축점강저.당퇴화온도위550익시,배형격광기수출성능은정성최호,당공작230 h후,수출능량부하강도초시치적90.5%.실험결과표명,채용합괄적열처리방식,가이유효개선저손모고반막특성이급배형격광기적수출성능.
@@@@Low loss optical coatings mirror is the most critical elements for resonant cavity of ring laser. In this paper, low loss high reflective coatings working at the angle of 45o were designed and prepared. In order to improve optical properties of low loss high reflective coatings, high temperature thermal treatment was chosen and the impact of thermal treatment on transmittance, scattering, surface roughness and phase shift of low loss high reflective coatings was researched. The impact of thermal treatment on scattering and surface roughness was very low. With the increase of annealing temperature, the phase shift of low loss high reflective coatings reduced gradually. When the annealing temperature was 550, the optical stability of ring laser output energy was the best. After working for 230 hours, laser output energy dropped to 90.5% of its initial value. The results have shown that optical properties of low loss high reflective coatings and output energy properties of ring laser can be improved by the proper thermal treatment.
