Imaging Shock Waves in Diamond with Both High Temporal and Spatial Resolution at an XFEL

The advent of hard x-ray free-electron lasers (XFELs) has opened up a variety of scientific opportunities in areas as diverse as atomic physics, plasma physics, nonlinear optics in the x-ray range and protein crystallography. In this article, we access a new field of science by measuring quantitativ...

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Veröffentlicht in:	Scientific reports 2015-06, Vol.5 (1), p.11089-11089, Article 11089
Hauptverfasser:	Schropp, Andreas, Hoppe, Robert, Meier, Vivienne, Patommel, Jens, Seiboth, Frank, Ping, Yuan, Hicks, Damien G., Beckwith, Martha A., Collins, Gilbert W., Higginbotham, Andrew, Wark, Justin S., Lee, Hae Ja, Nagler, Bob, Galtier, Eric C., Arnold, Brice, Zastrau, Ulf, Hastings, Jerome B., Schroer, Christian G.
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Schlagworte:	639/624/1020/1087 639/624/1107/328/1651 639/624/400/1106 639/766/930/2735 Compression CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY Crystallography Elastic waves Free-electron lasers Humanities and Social Sciences Imaging techniques Lasers MATERIALS SCIENCE multidisciplinary Optics Phase-contrast microscopy Physics Science Shock waves Velocity X-rays
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creator	Schropp, Andreas Hoppe, Robert Meier, Vivienne Patommel, Jens Seiboth, Frank Ping, Yuan Hicks, Damien G. Beckwith, Martha A. Collins, Gilbert W. Higginbotham, Andrew Wark, Justin S. Lee, Hae Ja Nagler, Bob Galtier, Eric C. Arnold, Brice Zastrau, Ulf Hastings, Jerome B. Schroer, Christian G.
description	The advent of hard x-ray free-electron lasers (XFELs) has opened up a variety of scientific opportunities in areas as diverse as atomic physics, plasma physics, nonlinear optics in the x-ray range and protein crystallography. In this article, we access a new field of science by measuring quantitatively the local bulk properties and dynamics of matter under extreme conditions, in this case by using the short XFEL pulse to image an elastic compression wave in diamond. The elastic wave was initiated by an intense optical laser pulse and was imaged at different delay times after the optical pump pulse using magnified x-ray phase-contrast imaging. The temporal evolution of the shock wave can be monitored, yielding detailed information on shock dynamics, such as the shock velocity, the shock front width and the local compression of the material. The method provides a quantitative perspective on the state of matter in extreme conditions.
doi_str_mv	10.1038/srep11089
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In this article, we access a new field of science by measuring quantitatively the local bulk properties and dynamics of matter under extreme conditions, in this case by using the short XFEL pulse to image an elastic compression wave in diamond. The elastic wave was initiated by an intense optical laser pulse and was imaged at different delay times after the optical pump pulse using magnified x-ray phase-contrast imaging. The temporal evolution of the shock wave can be monitored, yielding detailed information on shock dynamics, such as the shock velocity, the shock front width and the local compression of the material. The method provides a quantitative perspective on the state of matter in extreme conditions.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>26086176</pmid><doi>10.1038/srep11089</doi><tpages>1</tpages><oa>free_for_read</oa></addata></record>
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subjects	639/624/1020/1087 639/624/1107/328/1651 639/624/400/1106 639/766/930/2735 Compression CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY Crystallography Elastic waves Free-electron lasers Humanities and Social Sciences Imaging techniques Lasers MATERIALS SCIENCE multidisciplinary Optics Phase-contrast microscopy Physics Science Shock waves Velocity X-rays
title	Imaging Shock Waves in Diamond with Both High Temporal and Spatial Resolution at an XFEL
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