利用脉冲激光束与分子的相互作用 ,对 L i I进行了光离解。同时 ,用另一束可调谐激光对 L i I离解后产生的中性 L i进行共振激发 ,然后把处在激发态的 L i进行光电离。对 L i的飞行时间质谱 (TOFMS)进行了研究 ,并对光离解及光电离过程...利用脉冲激光束与分子的相互作用 ,对 L i I进行了光离解。同时 ,用另一束可调谐激光对 L i I离解后产生的中性 L i进行共振激发 ,然后把处在激发态的 L i进行光电离。对 L i的飞行时间质谱 (TOFMS)进行了研究 ,并对光离解及光电离过程中可能存在的多光子电离 (MPI)展开更多
P427.33 97053487聚焦强激光束大气传输的数值模拟=Numericalcalculation of focused high power laser beamspropagation in the atmosphere[刊,中]/谢树茂,雷广玉,郑绍唐(北京应用物理与计算数学研究所.北京(100088))//强激光与粒子束...P427.33 97053487聚焦强激光束大气传输的数值模拟=Numericalcalculation of focused high power laser beamspropagation in the atmosphere[刊,中]/谢树茂,雷广玉,郑绍唐(北京应用物理与计算数学研究所.北京(100088))//强激光与粒子束.—1996,8(3).展开更多
In the paper, relativistic filamentation of intense laser beam in inhomogeneous plasma is investigated based on the nonparaxial region theory. The results show that, relativistic nonlinearity plays a main role in beam...In the paper, relativistic filamentation of intense laser beam in inhomogeneous plasma is investigated based on the nonparaxial region theory. The results show that, relativistic nonlinearity plays a main role in beam filamentation, and plasma inhomogeneity further reinforces the beam filamentation. The combination effects of relativistic nonlinearity and plasma inhomogeneity can generate particularly intense and short pulse laser. However, plasma inhomogeneity leads to obvious filamentation instability.展开更多
文摘P427.33 97053487聚焦强激光束大气传输的数值模拟=Numericalcalculation of focused high power laser beamspropagation in the atmosphere[刊,中]/谢树茂,雷广玉,郑绍唐(北京应用物理与计算数学研究所.北京(100088))//强激光与粒子束.—1996,8(3).
文摘In the paper, relativistic filamentation of intense laser beam in inhomogeneous plasma is investigated based on the nonparaxial region theory. The results show that, relativistic nonlinearity plays a main role in beam filamentation, and plasma inhomogeneity further reinforces the beam filamentation. The combination effects of relativistic nonlinearity and plasma inhomogeneity can generate particularly intense and short pulse laser. However, plasma inhomogeneity leads to obvious filamentation instability.
基金The project supported by National Natural Science Foundation of China under Grant No, 10375083 and the Special Foundation for State Key Basic Research Program of China under Grant No. TG1999075206-2