红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2013年
12期
3353-3357
,共5页
KDP晶体%光吸收系数%光热位移%干涉测量
KDP晶體%光吸收繫數%光熱位移%榦涉測量
KDP정체%광흡수계수%광열위이%간섭측량
KDP crystal%optical absorption coefficient%photothermal displacement%interferometry
KDP晶体的光吸收系数是评价其光学质量的重要参数。尤其在惯性约束核聚变装置(ICF)中,其大小直接决定出射脉冲的能量及频率转换效率,因此必须对它进行高精度测量。 KDP晶体光吸收系数的数量级一般在10-3/cm~10-5/cm,传统的光吸收系数检测方法已经无法满足该测量分辨率要求。文中针对KDP晶体的特点提出了一种基于光热位移原理的干涉测量方法来解决其吸收系数精密测量的问题。首先利用积分变换思想建立了KDP晶体光吸收系数干涉测量数学模型,然后基于该模型对测量系统的结构参数进行了仿真优化,得到了系统的设计参数。
KDP晶體的光吸收繫數是評價其光學質量的重要參數。尤其在慣性約束覈聚變裝置(ICF)中,其大小直接決定齣射脈遲的能量及頻率轉換效率,因此必鬚對它進行高精度測量。 KDP晶體光吸收繫數的數量級一般在10-3/cm~10-5/cm,傳統的光吸收繫數檢測方法已經無法滿足該測量分辨率要求。文中針對KDP晶體的特點提齣瞭一種基于光熱位移原理的榦涉測量方法來解決其吸收繫數精密測量的問題。首先利用積分變換思想建立瞭KDP晶體光吸收繫數榦涉測量數學模型,然後基于該模型對測量繫統的結構參數進行瞭倣真優化,得到瞭繫統的設計參數。
KDP정체적광흡수계수시평개기광학질량적중요삼수。우기재관성약속핵취변장치(ICF)중,기대소직접결정출사맥충적능량급빈솔전환효솔,인차필수대타진행고정도측량。 KDP정체광흡수계수적수량급일반재10-3/cm~10-5/cm,전통적광흡수계수검측방법이경무법만족해측량분변솔요구。문중침대KDP정체적특점제출료일충기우광열위이원리적간섭측량방법래해결기흡수계수정밀측량적문제。수선이용적분변환사상건립료KDP정체광흡수계수간섭측량수학모형,연후기우해모형대측량계통적결구삼수진행료방진우화,득도료계통적설계삼수。
The optical absorption coefficient of KDP crystal is an important parameter to evaluate its quality. Especially, in the Inertial Confinement Fusion (ICF) facility, the amount of the optical absorption coefficient determines the energy and frequency conversion efficiency of output pulses directly. So it is need to measure it with extreme precision. Since the magnitude of optical absorption coefficient of the KDP crystal is generally 10-3/cm~10-5/cm, traditional detection methods cannot meet the measurement resolution requirement. In this paper, an interferometry method based on the photothermal displacement principle was proposed to solve the problem of measuring the optical absorption coefficient with extreme precision in connection with the characteristics of KDP crystal. The mathematical model within interferometry method of KDP crystal optical absorption coefficient was established by the integral transfer method firstly, then the structure parameters of the measuring system was simulated and optimized based on the above model, and the design parameters of the system were obtained.