辐射损伤是X射线自由电子激光高分辨率单颗粒成像中的限制因素吗？

Is radiation damage the limiting factor in high-resolution single particle imaging with X-ray free-electron lasers?

作者信息

Östlin C, Timneanu N, Caleman C, Martin A V

机构信息

Molecular and Condensed Matter Physics, Department of Physics and Astronomy, Uppsala University, Box 516, SE-751 20 Uppsala, Sweden.

School of Science, RMIT University, Melbourne, Victoria 3000, Australia.

出版信息

Struct Dyn. 2019 Aug 20;6(4):044103. doi: 10.1063/1.5098309. eCollection 2019 Jul.

DOI:10.1063/1.5098309

PMID:31463335

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6701976/

Abstract

The prospect of single particle imaging with atomic resolution is one of the scientific drivers for the development of X-ray free-electron lasers. The assumption since the beginning has been that damage to the sample caused by intense X-ray pulses is one of the limiting factors for achieving subnanometer X-ray imaging of single particles and that X-ray pulses need to be as short as possible. Based on the molecular dynamics simulations of proteins in X-ray fields of various durations (5 fs, 25 fs, and 50 fs), we show that the noise in the diffracted signal caused by radiation damage is less than what can be expected from other sources, such as sample inhomogeneity and X-ray shot-to-shot variations. These findings show a different aspect of the feasibility of high-resolution single particle imaging using free-electron lasers, where employing X-ray pulses of longer durations could still provide a useful diffraction signal above the noise due to the Coulomb explosion.

摘要

实现原子分辨率的单粒子成像前景是推动X射线自由电子激光发展的科学动力之一。从一开始的假设就是，强X射线脉冲对样品造成的损伤是实现单粒子亚纳米级X射线成像的限制因素之一，并且X射线脉冲需要尽可能短。基于对蛋白质在不同持续时间（5飞秒、25飞秒和50飞秒）的X射线场中的分子动力学模拟，我们表明，由辐射损伤引起的衍射信号中的噪声小于其他来源（如样品不均匀性和X射线逐次变化）所预期的噪声。这些发现揭示了使用自由电子激光进行高分辨率单粒子成像可行性的一个不同方面，即由于库仑爆炸，采用持续时间较长的X射线脉冲仍可在噪声之上提供有用的衍射信号。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/44e5/6701976/6d9e65c77c0c/SDTYAE-000006-044103_1-g001.jpg

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辐射损伤是X射线自由电子激光高分辨率单颗粒成像中的限制因素吗？

Is radiation damage the limiting factor in high-resolution single particle imaging with X-ray free-electron lasers?

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