Femtosecond diffractive imaging with a soft-X-ray free-electron laser

被引:0
|
作者
Henry N. Chapman
Anton Barty
Michael J. Bogan
Sébastien Boutet
Matthias Frank
Stefan P. Hau-Riege
Stefano Marchesini
Bruce W. Woods
Saša Bajt
W. Henry Benner
Richard A. London
Elke Plönjes
Marion Kuhlmann
Rolf Treusch
Stefan Düsterer
Thomas Tschentscher
Jochen R. Schneider
Eberhard Spiller
Thomas Möller
Christoph Bostedt
Matthias Hoener
David A. Shapiro
Keith O. Hodgson
David van der Spoel
Florian Burmeister
Magnus Bergh
Carl Caleman
Gösta Huldt
M. Marvin Seibert
Filipe R. N. C. Maia
Richard W. Lee
Abraham Szöke
Nicusor Timneanu
Janos Hajdu
机构
[1] University of California,Department of Cell and Molecular Biology
[2] Lawrence Livermore National Laboratory,undefined
[3] Center for Biophotonics Science and Technology,undefined
[4] University of California,undefined
[5] Stanford Synchrotron Radiation Laboratory,undefined
[6] Stanford Linear Accelerator Center,undefined
[7] Laboratory of Molecular Biophysics,undefined
[8] Uppsala University,undefined
[9] Deutsches Elektronen-Synchrotron,undefined
[10] DESY,undefined
[11] Spiller X-ray Optics,undefined
[12] Institut für Optik und Atomare Physik,undefined
[13] Technische Universität Berlin,undefined
来源
Nature Physics | 2006年 / 2卷
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摘要
Theory predicts1,2,3,4 that, with an ultrashort and extremely bright coherent X-ray pulse, a single diffraction pattern may be recorded from a large macromolecule, a virus or a cell before the sample explodes and turns into a plasma. Here we report the first experimental demonstration of this principle using the FLASH soft-X-ray free-electron laser. An intense 25 fs, 4×1013 W cm−2 pulse, containing 1012 photons at 32 nm wavelength, produced a coherent diffraction pattern from a nanostructured non-periodic object, before destroying it at 60,000 K. A novel X-ray camera assured single-photon detection sensitivity by filtering out parasitic scattering and plasma radiation. The reconstructed image, obtained directly from the coherent pattern by phase retrieval through oversampling5,6,7,8,9, shows no measurable damage, and is reconstructed at the diffraction-limited resolution. A three-dimensional data set may be assembled from such images when copies of a reproducible sample are exposed to the beam one by one10.
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页码:839 / 843
页数:4
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