毛细管放电类氖氩69.8nm激光增益特性研究  

作　　者：刘涛[1,2] 赵永蓬[1] 丁宇洁 李小强[1] 崔怀愈 姜杉[1] 

机构地区：[1]哈尔滨工业大学,可调谐激光技术国家级重点实验室,哈尔滨150080 [2]中国民航大学电子信息与自动化学院,天津300300

出　　处：《物理学报》2017年第15期193-199,共7页Acta Physica Sinica

基　　金：国家自然科学基金(批准号:61275139)资助的课题~~

摘　　要：建立了计算69.8nm激光增益系数的理论模型,根据实验参数,计算了在主脉冲电流为12 kA时,69.8nm激光增益系数最大值为0.32 cm^(-1).理论模拟了不同初始气压下增益系数在毛细管径向上的分布情况.对理论结果的分析表明,最佳的初始气压在12—14 Pa范围内,此时69.8nm激光增益系数的极值最大.实验上,利用毛细管放电装置和罗兰光谱仪,测量了不同气压下的69.8nm激光强度,实验确定的最佳气压为16 Pa,与理论结果相近.此外,实验测量的增益系数(0.4 cm^(-1))略高于理论计算的增益系数(0.32 cm^(-1)).In this paper, the theoretical calculation model of the gain coefficient of Ne-like Ar 69.8 nm laser is established With the collisional-radiative model, the rate equations for the 46.9 nm and 69.8 nm lasers are built by considering the 4 levels of the 2s2p6 1S0, 2p53p 1S0, 2p53p 3P2, and 2p53s 1P1. The gain coefficients per ion density of 46.9 nm and 69.8 nm lasers are calculated on the basis of the rate equations. The results show that the 46.9 nm laser has potential of higher gain than the 69.8 nm laser at an electron temperature of 200 eV. The gain coefficients per ion density at different electron temperatures are also calculated. Under the same electron density, the higher electron temperature is favorable for increasing the gain coefficients per ion density of the 69.8 nm laser. Meanwhile there is also an optimal electron density corresponding to the maximum gain coefficient per ion density of the 69.8 nm laser at a given electron temperature. Then a one-dimensional cylindrical symmetry Lagrangian magneto-hydrodynamics （MHD） code is utilized to simulate the Z-pinch process. The radial distributions of the electron temperatures, the electron densities and the Ne- like Ar ion densities are calculated with the MHD code at the different initial pressures. According to the rate equations for the 69.8 nm laser and the simulation results of the MHD code, the gain coefficient distribution of 69.8 nm laser in the radial direction of the plasma can be determined when the plasma is compressed to a minimum radius. According to the experimental parameters, the maximum gain coefficient of 69.8 nm laser is calculated to be 0.32 cm-1 when the main pulse current is 12 kA. The relationship between the radial distribution of gain coefficient of 69.8 nm laser and the initial pressure is also simulated. The theoretical results show that the optimal initial pressure is in a range of 12-14 Pa, in which the amplitude of gain coefficient is maximum. The experiments about 69.8 nm laser are conducted with A1203 capillary which h

关 键 词：毛细管放电 69.8nm激光 速率方程 增益系数 

分 类 号：TN241[电子电信—物理电子学]