激光驱动聚团气体靶产生的亮回旋加速器 X 射线辐射。

Bright betatron X-ray radiation from a laser-driven-clustering gas target.

机构信息

Beijing National Laboratory of Condensed Matter Physics, Institute of Physics, CAS, Beijing 100190, China.

出版信息

Sci Rep. 2013;3:1912. doi: 10.1038/srep01912.

DOI:10.1038/srep01912

PMID:23715033

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3665959/

Abstract

Hard X-ray sources from femtosecond (fs) laser-produced plasmas, including the betatron X-rays from laser wakefield-accelerated electrons, have compact sizes, fs pulse duration and fs pump-probe capability, making it promising for wide use in material and biological sciences. Currently the main problem with such betatron X-ray sources is the limited average flux even with ultra-intense laser pulses. Here, we report ultra-bright betatron X-rays can be generated using a clustering gas jet target irradiated with a small size laser, where a ten-fold enhancement of the X-ray yield is achieved compared to the results obtained using a gas target. We suggest the increased X-ray photon is due to the existence of clusters in the gas, which results in increased total electron charge trapped for acceleration and larger wiggling amplitudes during the acceleration. This observation opens a route to produce high betatron average flux using small but high repetition rate laser facilities for applications.

摘要

飞秒（fs）激光产生等离子体的硬 X 射线源，包括激光尾波场加速电子的 betatron X 射线，具有紧凑的尺寸、fs 脉冲持续时间和 fs 泵浦探测能力，有望在材料和生物科学中得到广泛应用。目前，这种 betatron X 射线源的主要问题是即使使用超强激光脉冲，平均通量也有限。在这里，我们报告说，使用小尺寸激光辐照聚团气体射流靶可以产生超亮 betatron X 射线，与使用气体靶获得的结果相比，X 射线产额提高了十倍。我们认为，X 射线光子的增加是由于气体中存在团簇，这导致了用于加速的被俘获的总电子电荷增加，并且在加速过程中摆动幅度更大。这一观察结果为使用小型但重复率高的激光设备产生高 betatron 平均通量开辟了一条途径，可用于相关应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/68f8/3665959/f488f9c39522/srep01912-f1.jpg

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本文引用的文献

Spectroscopy of betatron radiation emitted from laser-produced wakefield accelerated electrons.激光尾场加速电子产生的电子感应加速器辐射的光谱学

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