Neutron Powder Diffraction and Equipment Upgrades at the McMaster Nuclear Reactor: Leveraging Previous Investments in Canadian Neutron Scattering

麦克马斯特核反应堆的中子粉末衍射和设备升级：利用之前对加拿大中子散射的投资

基本信息

批准号：
RTI-2020-00754
负责人：
Gaulin, Bruce
金额：
$ 10.83万
依托单位：
McMaster University
依托单位国家：
加拿大
项目类别：
Research Tools and Instruments
财政年份：
2019
资助国家：
加拿大
起止时间：
2019-01-01 至 2020-12-31
项目状态：
已结题

来源：
https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=693644
关键词：
Neutron Powder Diffraction Equipment Upgrades

项目摘要

The purpose of this Research Tools and Instruments grant application is to upgrade the neutron scattering instrumentation at the McMaster Nuclear Reactor (MNR) by obtaining surplus equipment from the Canadian Neutron Beam Centre (CNBC) at Chalk River which closed in March 2019. The MNR is currently Canada's only source of neutron beams for materials research. Neutrons are a fundamental tool for studying the properties of novel materials, revealing crucial information about structure, magnetism, and the nature of interatomic forces and interactions. The MNR is home to two neutron scattering beamlines: the McMaster Alignment Diffractometer (MAD) and the McMaster Small Angle Neutron Scattering beamline (MacSANS, scheduled to become operational in Summer 2020). These two beamlines offer unique capabilities for materials research in Canada, and have the capacity to serve scientists from across the country, in fields ranging from Physics and Chemistry, to Biology, Environmental Sciences, and Engineering.******The closure of the CNBC presents a unique, and time-sensitive, opportunity to expand the experimental capabilities of the MNR. In particular, there is a significant amount of neutron scattering instrumentation associated with the CNBC which is now surplus and must be removed (or disposed of) before the decommissioning of the NRU reactor. We propose to purchase this surplus equipment and relocate it to the MNR, where it can continue to serve the Canadian neutron scattering community. This new equipment for MNR would include a suite of low temperature and high magnetic field sample environments, as well as valuable ancillary equipment such as detectors, monitors, filters, monochromators, collimators, motors, stages, and associated electronics. However, the centerpiece of this proposal is the detector from the C2 neutron powder diffractometer at CNBC, a sensitive 800 element multi-wire neutron detector with an 80 degree angular range. This detector can be adapted for almost immediate use at the MNR, which would provide the only facility for neutron powder diffraction in Canada as early as Summer 2020.******This proposal represents an opportunity to leverage a significant, decades long, investment in neutron scattering instrumentation at the Canadian Neutron Beam Centre in Chalk River. We conservatively estimate that the $148,630 requested in this RTI application would allow us to acquire neutron scattering instrumentation originally valued at over ten times as much. This instrumentation will introduce exciting new capabilities for neutron powder diffraction, low temperature, and high magnetic field scattering at the McMaster Nuclear Reactor, and provide important tools for Canadian researchers studying materials ranging from high temperature superconductors and exotic quantum magnets to biological membranes, novel battery materials, and 3D printed steels.

本研究工具和仪器赠款申请的目的是通过从 2019 年 3 月关闭的乔克河加拿大中子束中心 (CNBC) 获得剩余设备来升级麦克马斯特核反应堆 (MNR) 的中子散射仪器。MNR 是目前加拿大唯一用于材料研究的中子束源。中子是研究新型材料特性的基本工具，揭示有关结构、磁性以及原子间力和相互作用的性质的重要信息。 MNR 拥有两条中子散射束线：麦克马斯特对准衍射仪 (MAD) 和麦克马斯特小角中子散射束线（MacSANS，计划于 2020 年夏季投入运行）。这两条光束线为加拿大的材料研究提供了独特的能力，并有能力为全国各地的科学家提供服务，领域涵盖物理、化学、生物学、环境科学和工程。****** CNBC 提供了一个独特且时间敏感的机会来扩展 MNR 的实验能力。特别是，有大量与 CNBC 相关的中子散射仪器，这些仪器现在已经过剩，必须在 NRU 反应堆退役之前拆除（或处置）。我们建议购买这些剩余设备并将其搬迁到 MNR，在那里它可以继续为加拿大中子散射界服务。这种用于 MNR 的新设备将包括一套低温和高磁场样品环境，以及有价值的辅助设备，如探测器、监视器、滤波器、单色仪、准直器、电机、平台和相关电子设备。然而，该提案的核心是来自 CNBC 的 C2 中子粉末衍射仪的探测器，这是一种灵敏的 800 元件多线中子探测器，角度范围为 80 度。该探测器几乎可以立即在 MNR 中使用，最早将于 2020 年夏季为加拿大提供唯一的中子粉末衍射设施。******该提案代表了一个利用长达数十年的重要、投资位于乔克河的加拿大中子束中心的中子散射仪器。我们保守估计，该 RTI 申请中要求的 148,630 美元将使我们能够购买原本价值十倍以上的中子散射仪器。该仪器将为麦克马斯特核反应堆的中子粉末衍射、低温和高磁场散射引入令人兴奋的新功能，并为加拿大研究人员研究从高温超导体和奇异量子磁体到生物膜、新型电池等材料提供重要工具材料和 3D 打印钢材。