Please use this identifier to cite or link to this item: https://apo.ansto.gov.au/dspace/handle/10238/12148
Title: SPATZ: The second time-of-flight neutron reflectometer at the OPAL Research Reactor
Authors: Le Brun, AP
Pullen, SA
Constantine, P
Spedding, J
Roach, D
McGregor, A
Affleck, J
Christoforidis, J
Trapp, M
Steitz, R
Keywords: OPAL Reactor
ANSTO
Time-of-flight spectrometers
Measuring instruments
Diffraction
Spectroscopy
Issue Date: 29-Nov-2016
Publisher: Australian Institute of Nuclear Science and Engineering
Citation: Le Brun, A. P., Pullen, S., Constantine, P., Spedding, J., Roach, D., McGregor, A., Affleck, J., Christoforidis, J., Trapp, M., & Steitz, R. (2016). SPATZ: The second time-of-flight neutron reflectometer at the OPAL Research Reactor. Paper presented at 13th AINSE-ANBUG Neutron Scattering Symposium, Sydney, NSW, Australia, 29-30 November 2016.
Abstract: In September 2015, an agreement was signed between HZB and ANSTO to transfer the V18 ‘BioRef’ time-of-flight neutron reflectometer [1], currently situated at the 10 MW BER-II Research Reactor, to the OPAL Research Reactor. During 2016 preparations have been made to carry out the transfer of a neutron-scattering instrument halfway around the globe. This has involved a joint team of ANSTO and HZB personnel spending four weeks carefully disassembling BioRef and packing it into shipping containers for transport to ANSTO. Once the instrument arrives it will be known as SPATZ (German for Sparrow) and will be the 15th neutron-scattering instrument at OPAL. SPATZ has a vertical sample geometry, which complements the current reflectometer, PLATYPUS, which has a horizontal sample geometry. The vertical sample geometry will allow for use of sample environments which cannot be currently used on PLATYPUS due to geometry constraints and allows for wide-angle diffraction from multilayers and lamellar stacks. SPATZ will also be equipped for simultaneous infra-red spectroscopy and reflectometry experiments, and will come with equipment for upgrades for polarisation and spin-echo techniques. The instrument will view the OPAL cold neutron source (CNS) by taking the end position of the CG2B guide. Currently, the CG2B guide is installed between the primary and secondary shutters and part of the project scope is to complete the installation of the CG2B guide beyond the secondary shutter into the Neutron Guide Hall. The CG2B guide will accommodate SPATZ and an additional upstream instrument to be determined in the future. This presentation will provide an overview of the project, its current status, and future direction. Feedback from the neutron scattering community is encouraged.
URI: https://apo.ansto.gov.au/dspace/handle/10238/12148
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