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QUOKKA, the pinhole small-angle neutron scattering instrument at the OPAL Research Reactor, Australia: design, performance, operation and scientific highlights

Authors :
David Federici
Shane J. Kennedy
Eno Imamovic
Friedl Bartsch
Robert A. Robinson
Christopher J. Garvey
Elliot P. Gilbert
Sungjoong Kim
Douglas Clowes
William A. Hamilton
John C. Osborn
Michael Deura
Peter Baxter
Terry Noakes
David Penny
Tony Lam
Nick Hauser
Kathleen Wood
Merv Perry
Chun-Ming Wu
Peter Abbeywick
Wai Tung Lee
Paolo Imperia
Jamie C. Schulz
Frank Darmann
Warren Brown
Norman Booth
Shane Harrison
Glen Horton
Stewart A Pullen
Norman Xiong
David Mannicke
Mark Lesha
Martin Jones
Jitendra P. Mata
Daniel Bartlett
Philip Hanson
Timothy D’Adam
Jason Christoforidis
Ferdi Franceschini
Scott Olsen
Source :
Journal of Applied Crystallography. 51:294-314
Publication Year :
2018
Publisher :
International Union of Crystallography (IUCr), 2018.

Abstract

QUOKKA is a 40 m pinhole small-angle neutron scattering instrument in routine user operation at the OPAL research reactor at the Australian Nuclear Science and Technology Organisation. Operating with a neutron velocity selector enabling variable wavelength, QUOKKA has an adjustable collimation system providing source–sample distances of up to 20 m. Following the large-area sample position, a two-dimensional 1 m2 position-sensitive detector measures neutrons scattered from the sample over a secondary flight path of up to 20 m. Also offering incident beam polarization and analysis capability as well as lens focusing optics, QUOKKA has been designed as a general purpose SANS instrument to conduct research across a broad range of scientific disciplines, from structural biology to magnetism. As it has recently generated its first 100 publications through serving the needs of the domestic and international user communities, it is timely to detail a description of its as-built design, performance and operation as well as its scientific highlights. Scientific examples presented here reflect the Australian context, as do the industrial applications, many combined with innovative and unique sample environments.

Details

ISSN :
16005767
Volume :
51
Database :
OpenAIRE
Journal :
Journal of Applied Crystallography
Accession number :
edsair.doi...........f89e323344b213792bf8c505f04e8083
Full Text :
https://doi.org/10.1107/s1600576718002534