电子与紧聚焦激光脉冲碰撞产生准单色x射线

J. Zhuang, Yiqiu Wang, Conglin Wang, Youwei Tian
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引用次数: 0

摘要

研究了圆偏振激光脉冲作用下电子的非线性汤姆逊后向散射过程。分析了电子脉冲与激光脉冲中心碰撞位置对散射光光谱特性的影响。结果表明,通过适当调整电子的中心碰撞位置或初始位置,可以减小多普勒非线性频移引起的频宽,改善发射光的单色性。同时,考虑对散射光辐射强度的要求,给出了产生准单色x射线的最佳条件。在此基础上,提出了一种在不改变频宽的情况下,通过控制激光脉冲宽度来提高背散射光辐射能量的方案。为克服电子初始位置改变方案中辐射能量过弱的问题提供了一种解决方案。此外,还发现随着脉冲宽度的增大,发射光的干涉条纹明显增大。
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Generation of a quasi-monochromatic x-ray via collision of electron with tightly focused laser pulses
The nonlinear Thomson backscattering process of electron under circularly polarized laser pulses is studied. The influence of the central collision position of the electron and laser pulses on the spectral characteristics of the scattered light is analyzed. The results show that the frequency broadening caused by doppler nonlinear frequency shift can be reduced and the monochromicity of the emitted light can be improved by adjusting the central collision position or the initial position of electron appropriately. At the same time, taking the requirements for the radiation intensity of scattered light into account, the optimal situation to generate quasi-monochromatic x-rays is presented. Besides, a scheme to increase the radiation energy of backscattered light by controlling the laser pulse width is proposed without changing the frequency band width. It provides a solution to overcome the problem that the radiation energy is too weak in the scheme of changing the initial position of electron. In addition, it was found that the interference fringes of the emitted light growing greatly as the pulse width increases.
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