EPSRC Core Equipment 2022

EPSRC核心设备2022

• 批准号: EP/X035379/1
• 负责人: Margaret Lucas
• 金额: $ 139.52万
• 依托单位: University of Glasgow
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2023
• 资助国家: 英国
• 起止时间: 2023 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=EP%2FX035379%2F1
• 关键词: EPSRC; Core; Equipment; 2022

The proposal requests two items of equipment to benefit users across the College of Science and Engineering.i) An Ultrafast Cryo-nano Microscope for quantum measurements to be located within the School of Chemistry. This system will allow nanoscale, time-resolved measurement of light in materials that exhibit quantum behaviours.ii) A Compact UV Laser System for rapid PCB prototyping to be located in the James Watt School of Engineering. This system will offer user-friendly, contact-free rapid prototyping for a wide range of materials and remove the need to use commercial services, or multi-stage cleanroom processes.This equipment will expand our current capabilities in the areas of quantum measurement and materials processing, which underpin a large portfolio of research in fields including materials science and engineering, quantum technologies, healthcare technologies, communications and sensing. The new facilities will be used by researchers across the College with significant demand in the Schools of Chemistry, Engineering and Physics & Astronomy. As well as underpinning existing research, the equipment will enable new research and initiate new collaborations. They will support multiple EPSRC Programme and Standard research grants, CDTs and QuantIC, the UK Quantum Imaging Hub.

该提案要求两项设备，以造福整个科学与工程学院的用户。i）一个超快低温纳米显微镜量子测量将位于化学学院。该系统将允许纳米级，时间分辨的光在材料的量子行为的测量。ii）一个紧凑的紫外线激光系统，用于快速印刷电路板原型，将设在詹姆斯瓦特工程学院。该系统将为各种材料提供用户友好的非接触式快速成型，无需使用商业服务或多级洁净室工艺。该设备将扩大我们在量子测量和材料加工领域的现有能力，这些领域是材料科学与工程，量子技术，医疗保健技术，通信和传感。新设施将由整个学院的研究人员使用，在化学，工程和物理与天文学学院有很大的需求。除了支持现有的研究外，该设备还将支持新的研究并启动新的合作。他们将支持多个EPSRC计划和标准研究赠款，CDTs和QuantIC，英国量子成像中心。