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光谱软X射线和硬X射线区域高次谐波产生的相位匹配

Phase matching of high harmonic generation in the soft and hard X-ray regions of the spectrum.

作者信息

Popmintchev Tenio, Chen Ming-Chang, Bahabad Alon, Gerrity Michael, Sidorenko Pavel, Cohen Oren, Christov Ivan P, Murnane Margaret M, Kapteyn Henry C

机构信息

JILA and National Science Foundation Engineering Research Center for Extreme Ultraviolet Science and Technology, University of Colorado, Boulder, CO 80309-0440, USA.

出版信息

Proc Natl Acad Sci U S A. 2009 Jun 30;106(26):10516-21. doi: 10.1073/pnas.0903748106. Epub 2009 Jun 18.

DOI:10.1073/pnas.0903748106
PMID:19541611
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2698889/
Abstract

We show how bright, tabletop, fully coherent hard X-ray beams can be generated through nonlinear upconversion of femtosecond laser light. By driving the high-order harmonic generation process using longer-wavelength midinfrared light, we show that, in theory, fully phase-matched frequency upconversion can extend into the hard X-ray region of the spectrum. We verify our scaling predictions experimentally by demonstrating phase matching in the soft X-ray region of the spectrum around 330 eV, using ultrafast driving laser pulses at 1.3-microm wavelength, in an extended, high-pressure, weakly ionized gas medium. We also show through calculations that scaling of the overall conversion efficiency is surprisingly favorable as the wavelength of the driving laser is increased, making tabletop, fully coherent, multi-keV X-ray sources feasible. The rapidly decreasing microscopic single-atom yield, predicted for harmonics driven by longer-wavelength lasers, is compensated macroscopically by an increased optimal pressure for phase matching and a rapidly decreasing reabsorption of the generated X-rays.

摘要

我们展示了如何通过飞秒激光的非线性上转换产生明亮的、桌面型的、完全相干的硬X射线束。通过使用更长波长的中红外光驱动高次谐波产生过程,我们表明,理论上,完全相位匹配的频率上转换可以扩展到光谱的硬X射线区域。我们通过在330 eV左右的光谱软X射线区域演示相位匹配,使用1.3微米波长的超快驱动激光脉冲,在扩展的、高压的、弱电离气体介质中,实验验证了我们的标度预测。我们还通过计算表明,随着驱动激光波长的增加,整体转换效率的标度出人意料地有利,使得桌面型、完全相干的多keV X射线源成为可行。对于由更长波长激光驱动的谐波,预测的微观单原子产率迅速下降,在宏观上通过增加相位匹配的最佳压力和迅速减少所产生X射线的再吸收得到补偿。

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