原子能科学技术
原子能科學技術
원자능과학기술
ATOMIC ENERGY SCIENCE AND TECHNOLOGY
2015年
2期
230-233
,共4页
苏恒毅%兰小飞%张骥%王雷剑%路建新%汤秀章
囌恆毅%蘭小飛%張驥%王雷劍%路建新%湯秀章
소항의%란소비%장기%왕뢰검%로건신%탕수장
超短脉冲%K rF激光%光束质量评价
超短脈遲%K rF激光%光束質量評價
초단맥충%K rF격광%광속질량평개
ultrashort pulse%KrF laser%beam quality evaluation
通过搭建传输和聚焦光学系统,采用CCD相机测量了高功率紫外超短脉冲激光系统的光束质量参数,如紫外种子光及其经过K rF准分子激光器放大后的焦斑光强空间分布、焦斑尺寸及极限衍射倍数β。结果表明,紫外种子光光束质量良好,β接近于1。经放大后,光束质量劣化,β达到6左右。经分析,光学元件的表面缺陷可能是导致光束质量下降的主要因素。
通過搭建傳輸和聚焦光學繫統,採用CCD相機測量瞭高功率紫外超短脈遲激光繫統的光束質量參數,如紫外種子光及其經過K rF準分子激光器放大後的焦斑光彊空間分佈、焦斑呎吋及極限衍射倍數β。結果錶明,紫外種子光光束質量良好,β接近于1。經放大後,光束質量劣化,β達到6左右。經分析,光學元件的錶麵缺陷可能是導緻光束質量下降的主要因素。
통과탑건전수화취초광학계통,채용CCD상궤측량료고공솔자외초단맥충격광계통적광속질량삼수,여자외충자광급기경과K rF준분자격광기방대후적초반광강공간분포、초반척촌급겁한연사배수β。결과표명,자외충자광광속질량량호,β접근우1。경방대후,광속질량열화,β체도6좌우。경분석,광학원건적표면결함가능시도치광속질량하강적주요인소。
By means of building transmitting and focusing optical system , the beam quality of high power ultraviolet ultrashort laser pulse system was researched by using a CCD camera .Relevant parameters obtained from the measurement are the spatial inten‐sity distribution ,the size of focal spot and beam quality β‐factor of the ultraviolet seed laser and the amplified pulse after its amplification by a KrF laser system .The result show s that the beam quality of the ultraviolet seed laser beam is good .β‐factor is closed to 1 .After amplification the beam quality worsens and β‐factor increases to about 6 . Through analysis ,surface defects of optical elements may be the major factor which leads to the degradation of the laser beam quality .