Laser-driven particle beamline for applications

激光驱动粒子束线的应用

• 批准号: RGPIN-2018-05772
• 负责人: Antici, Patrizio
• 金额: $ 2.04万
• 依托单位: Institut national de la recherche scientifique
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2022
• 资助国家: 加拿大
• 起止时间: 2022-01-01 至 2023-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=752652
• 关键词: Laser; driven; particle; beamline; applications

The research proposal is based on the generation and use of novel laser-based high-brillance ultra-short particle sources and applications. It will make best use of the ALLS laser facility located at INRS, perfectly suited for laser-generated particle acceleration (proton, electrons and neutron sources). These particles have currently very interesting characteristics in comparison to conventional accelerator sources and allow for manifold applications in the field of material science, medicine, fusion energy, biology, astrophysics and Cultural Heritage. The proposal will profit from preliminary promising results and different ongoing collaborations with other national or international laboratories. The research topics embrace several domains such as Lasers, Conventional Accelerator technologies, Advanced Materials and Cultural Heritage. Several students, post-docs and research associate shall be trained on those topics in order to obtain a broad overview about project related work and different innovative science with many links to industry (local and abroad). More in detail, the research project will focus on the following main areas: 1) Development of a stable and reliable high-repetition rate laser-driven proton beamline; 2) Use of this protons for stress testing materials, for advanced material synthesis and for the development of improved diagnostics in the Cultural Heritage; 3) Use of laser-generated protons for high-brillance ultra-short neutron sources; 4) Laser-based Ultra-Fast Electron Diffraction (UED) experiments and applications. The benefits of the proposed research are: (i) Developing expertise in an area of great relevance to future needs in laser/accelerator and material science; (ii) Training of HQP who will be in high demand from both academia and industry; (iii) Providing seed technology and expertise for the creation of technology transfer in Quebec and Canada; (iv) Keeping abreast of developments in the rapidly expanding field of laser-plasma acceleration and applications by being effectively networked nationally and internationally; (v) Reinforcing Canada in the field of photonics and in the role material science innovator, positioning Canada as a key player.

该研究计划基于新型激光基高亮度超短粒子源的产生和使用及其应用。它将充分利用位于INRS的ALLS激光设施，该设施非常适合于激光产生的粒子加速（质子、电子和中子源）。与传统的加速器源相比，这些粒子目前具有非常有趣的特性，并允许在材料科学，医学，聚变能，生物学，天体物理学和文化遗产领域的多种应用。该提案将受益于初步的有希望的结果以及与其他国家或国际实验室正在进行的各种合作。研究课题包括几个领域，如激光，传统加速器技术，先进材料和文化遗产。几个学生，博士后和研究助理应就这些主题进行培训，以获得有关项目相关工作和不同的创新科学与许多行业（本地和国外）的广泛概述。更具体地说，该研究项目将侧重于以下主要领域：1）开发稳定可靠的高重复率激光驱动质子束线; 2）将这种质子用于应力测试材料、先进的材料合成和开发改进的文化遗产诊断; 3）将激光产生的质子用于高亮度超短中子源; 4）基于激光的超快电子衍射（UED）实验和应用。拟议研究的好处是：㈠在与激光/加速器和材料科学的未来需求密切相关的领域发展专门知识; ㈡培训学术界和工业界都很需要的高级资格人员; ㈢为在魁北克和加拿大进行技术转让提供种子技术和专门知识; ㈣通过有效的国家和国际联网，跟上迅速扩大的激光等离子体加速和应用领域的发展; ㈤加强加拿大在光子学领域和材料科学创新者的作用，使加拿大成为一个关键的参与者。