Fast X-ray microdiffraction techniques for studying irreversible transformations in materials

Stephen T. Kelly; Jonathan C. Trenkle; Lucas J. Koerner; Sara C. Barron; Noeel Walker; Philippe O. Pouliquen; Mark W. Tate; Sol M. Gruner; Eric M. Dufresne; Timothy P. Weihs; Todd C. Hufnagel; Argonne National Lab. (ANL), Argonne, IL (United States)

doi:10.1107/S0909049511002640

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$Fast X-ray microdiffraction techniques for studying irreversible transformations in materials$

Journal article

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Fast X-ray microdiffraction techniques for studying irreversible transformations in materials

Stephen T. Kelly, Jonathan C. Trenkle, Lucas J. Koerner, Sara C. Barron, Noeel Walker, Philippe O. Pouliquen, Mark W. Tate, Sol M. Gruner, Eric M. Dufresne, Timothy P. Weihs, …

Journal of synchrotron radiation, Vol.18(3), pp.464-474

05/2011

DOI: https://doi.org/10.1107/S0909049511002640

PMCID: PMC3083916

PMID: 21525656

Abstract

Instruments & Instrumentation

Physics, Applied

Science & Technology

Optics

Physical Sciences

Physics

Technology

A pair of techniques have been developed for performing time-resolved X-ray microdiffraction on irreversible phase transformations. In one technique capillary optics are used to focus a high-flux broad-spectrum X-ray beam to a 60 mu m spot size and a fast pixel array detector is used to achieve temporal resolution of 55 mu s. In the second technique the X-rays are focused with Kirkpatrick-Baez mirrors to achieve a spatial resolution better than 10 mu m and a fast shutter is used to provide temporal resolution better than 20 mu s while recording the diffraction pattern on a (relatively slow) X-ray CCD camera. Example data from experiments are presented where these techniques are used to study self-propagating high-temperature synthesis reactions in metal laminate foils.

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Title: Fast X-ray microdiffraction techniques for studying irreversible transformations in materials
Author/Creator: Stephen T. Kelly - Johns Hopkins University
Jonathan C. Trenkle - Johns Hopkins University
Lucas J. Koerner - Cornell University
Sara C. Barron - Johns Hopkins University
Noeel Walker - Johns Hopkins University
Philippe O. Pouliquen - Johns Hopkins University
Mark W. Tate - Cornell University
Sol M. Gruner - Cornell University
Eric M. Dufresne - Argonne Natl Lab, Adv Photon Source, Argonne, IL 60439 USA
Timothy P. Weihs - Johns Hopkins University
Todd C. Hufnagel - Johns Hopkins University
Argonne National Lab. (ANL), Argonne, IL (United States)
Publication Details: Journal of synchrotron radiation, Vol.18(3), pp.464-474
Publisher: Wiley
Number of pages: 11
Grant note: DMR-0225180 / National Institutes of Health/National Institutes of General Medical Sciences; United States Department of Health & Human Services; National Institutes of Health (NIH) - USA; NIH National Institute of General Medical Sciences (NIGMS) DMI-0300396 / National Science Foundation; National Science Foundation (NSF) FG02-97ER62443; DE-FG02-09ER46648 / Department of Energy; United States Department of Energy (DOE) National Science Foundation; National Science Foundation (NSF) DE-AC02-06CH11357 / US Department of Energy, Office of Science, Office of Basic Energy Sciences; United States Department of Energy (DOE) N000014-07-1-0740 / Office of Naval Research
Academic Unit: Electrical & Computer Engineering
Language: English
Resource Type: Journal article
Record Identifier: 991015164058203691