可控气相分子的X射线衍射成像：迈向分子框架内动力学的成像

X-ray diffractive imaging of controlled gas-phase molecules: Toward imaging of dynamics in the molecular frame.

作者信息

Kierspel Thomas, Morgan Andrew, Wiese Joss, Mullins Terry, Aquila Andy, Barty Anton, Bean Richard, Boll Rebecca, Boutet Sébastien, Bucksbaum Philip, Chapman Henry N, Christensen Lauge, Fry Alan, Hunter Mark, Koglin Jason E, Liang Mengning, Mariani Valerio, Natan Adi, Robinson Joseph, Rolles Daniel, Rudenko Artem, Schnorr Kirsten, Stapelfeldt Henrik, Stern Stephan, Thøgersen Jan, Yoon Chun Hong, Wang Fenglin, Küpper Jochen

机构信息

Center for Free-Electron Laser Science, Deutsches Elektronen-Synchrotron DESY, Notkestraße 85, 22607 Hamburg, Germany.

LCLS, SLAC National Accelerator Laboratory, Menlo Park, California 94025, USA.

出版信息

J Chem Phys. 2020 Feb 28;152(8):084307. doi: 10.1063/1.5133963.

DOI:10.1063/1.5133963

PMID:32113333

Abstract

We report experimental results on the diffractive imaging of three-dimensionally aligned 2,5-diiodothiophene molecules. The molecules were aligned by chirped near-infrared laser pulses, and their structure was probed at a photon energy of 9.5 keV (λ ≈ 130 pm) provided by the Linac Coherent Light Source. Diffracted photons were recorded on the Cornell-SLAC pixel array detector, and a two-dimensional diffraction pattern of the equilibrium structure of 2,5-diiodothiophene was recorded. The retrieved distance between the two iodine atoms agrees with the quantum-chemically calculated molecular structure to be within 5%. The experimental approach allows for the imaging of intrinsic molecular dynamics in the molecular frame, albeit this requires more experimental data, which should be readily available at upcoming high-repetition-rate facilities.

摘要

我们报告了关于三维排列的2,5-二碘噻吩分子的衍射成像实验结果。这些分子通过啁啾近红外激光脉冲排列，并在直线加速器相干光源提供的9.5 keV（λ≈130 pm）光子能量下探测其结构。衍射光子记录在康奈尔-斯坦福直线加速器中心像素阵列探测器上，记录了2,5-二碘噻吩平衡结构的二维衍射图案。检索到的两个碘原子之间的距离与量子化学计算的分子结构相符，误差在5%以内。该实验方法允许在分子框架内对分子的内在动力学进行成像，尽管这需要更多的实验数据，而在即将到来的高重复率设施中应该很容易获得这些数据。

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可控气相分子的X射线衍射成像：迈向分子框架内动力学的成像

X-ray diffractive imaging of controlled gas-phase molecules: Toward imaging of dynamics in the molecular frame.

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