Resonant propagation of x rays from the linear to the nonlinear regime

Kai Li, M. Labeye, P. Ho, M. Gaarde, L. Young
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引用次数: 4

Abstract

We present a theoretical study of temporal, spectral, and spatial reshaping of intense, ultrafast x-ray pulses propagating through a resonant medium. Our calculations are based on the solution of a 3D time-dependent Schrodinger-Maxwell equation, with the incident x-ray photon energy on resonance with the core-level 1s-3p transition in neon. We study the evolution of the combined incident and medium-generated field, including the effects of stimulated emission, absorption, ionization and Auger decay, as a function of the input pulse energy and duration. We find that stimulated Raman scattering between core-excited states $1s^{-1}3p$ and $2p^{-1}3p$ occurs at high x-ray intensity, and that the emission around this frequency is strongly enhanced when also including the similar $1s^{-1}-2p^{-1}$ response of the ion. We also explore the dependence of x-ray self-induced transparency (SIT) and self-focusing on the pulse intensity and duration, and we find that the stimulated Raman scattering plays an important role in both effects. Finally, we discuss how these nonlinear effects may potentially be exploited as control parameters for pulse properties of x-ray free-electron laser sources.
x射线从线性到非线性的共振传播
我们提出了一个理论研究的时间,光谱和空间重塑的强,超快的x射线脉冲通过共振介质传播。我们的计算是基于三维随时间的薛定谔-麦克斯韦方程的解,入射的x射线光子能量与氖的核心能级1s-3p跃迁共振。我们研究了入射和介质产生的联合场的演化,包括受激发射、吸收、电离和俄歇衰变的影响,作为输入脉冲能量和持续时间的函数。我们发现在高x射线强度下,在核心激发态$1s^{-1}3p$和$2p^{-1}3p$之间的受激拉曼散射发生,并且当离子的类似$1s^{-1}-2p^{-1}$响应时,该频率附近的发射被强烈增强。我们还探讨了x射线自诱导透明(SIT)和自聚焦与脉冲强度和持续时间的关系,发现受激拉曼散射在这两种效应中起着重要作用。最后,我们讨论了如何利用这些非线性效应作为x射线自由电子激光源脉冲特性的控制参数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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