K. Makarov, D. D. Maluta, V. Roerich, Y. Satov, Y. Smakovskii, Andrei E. Stepanov
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引用次数: 0
摘要
在峰值激光强度为4 × 1013 W cm-2、FWHM脉冲持续时间为15 ns的条件下,对CO2激光产生的铝和铅靶的等离子体离子组分参数进行了实验和数值研究。用飞行时间法测量了不同电荷状态下离子数密度、平均速度及其扩散的角依赖性。离子的电荷态分布呈现出高电荷和低电荷的状态群。这些基团中的离子具有不同的平均膨胀速度和纵向速度扩散。高电荷态离子群的角分布比低电荷态离子群的窄,低电荷态的最大产率出现在偏离正态的一定角度。对于Al靶,结果与Pb靶的趋势相似,但模拟结果表明,在这种情况下,激光质动势的影响更为明显。
Plasma heating by CO2-laser pulses for efficient multicharged ion generation
CO2 laser-produced plasma ion component parameters were studied experimentally and numerically for aluminum and lead targets at peak laser intensity of 4 x 1013 W cm-2 and FWHM pulse duration of 15 ns. Angular dependences of ion number density, average velocity, and its spread were measured for different charge states by time-of-flight method. Ion charge state distribution shows high-charge and low-charge state groups. Ions in these groups have different average expansion velocity and longitudinal velocity spread. Angular distribution of high charge states is narrower than that of the low-charge state ion group, maximum yield of low charge states occurs at some angle from normal. For Al target the results show similar trends as for Pb target, but simulations have indicated that the effect of laser ponderomotive force is more pronounced in this case.
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