Mid-Scale RI-2 Consortium: Compact X-ray Free-Electron Laser Project (CXFEL)

中型 RI-2 联盟：紧凑型 X 射线自由电子激光项目 (CXFEL)

• 批准号: 2153503
• 负责人: William Graves
• 金额: $ 9080万
• 依托单位: Arizona State University
• 依托单位国家: 美国
• 项目类别: Cooperative Agreement
• 财政年份: 2023
• 资助国家: 美国
• 起止时间: 2023-03-15 至 2028-02-29
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2153503&HistoricalAwards=false
• 关键词: Mid; Scale; RI; Consortium; Compact

Modern science questions across many disciplines increasingly focus on understanding events, changes, and structures at the smallest atomic scales. The establishment of a Compact X-ray Free Electron Laser (CXFEL) facility at Arizona State University will enable these advanced studies and fulfill an urgent need in the broad U.S. research community to directly observe, manipulate, and control quantum dynamics in complex materials, molecules, and interfaces. These capabilities will reveal novel biological processes, enable new energy-efficient technologies, and decode quantum behavior that can drive new computing methods and novel materials. A diverse population of undergraduate and graduate students will be engaged in the scientific and project management aspects of this mid-scale research infrastructure development effort. The combination of infrastructure training and broad researcher access to transformative new instruments will serve the NSF mission priority to advance all fields of science and engineering.The CXFEL is a novel instrument to produce sub-femtosecond coherent X-rays for analysis of a range of samples. CXFEL builds on the latest advances in laser technology and electron beam physics to produce a room-sized X-ray laser (roughly 10m long) with full coherence in time and space. The CXFEL will uniquely offer full control of the X-ray phase using electron-beam patterning that allows customized time-structure of the beam, e.g., attosecond pulses, very narrow linewidths, and extremely precise timing among multiple pulses with different colors. Multiple end-stations will be configured to support X-ray spectroscopy, small- and wide-angle X-ray scattering, coincident attosecond momentum imaging, and time-resolved X-ray crystallography for studies in biology, quantum materials, atomic and molecular science, and optical sciences. During construction, sophisticated machine learning software will be integrated with the hardware to create highly flexible and efficient ultrafast science instruments that respond to NSF’s Big Ideas, including Midscale Research Infrastructure, Rules of Life, Quantum Leap, and Harnessing the Data Revolution. The software tools will help guide acquisition and analysis of large data sets, speeding up experiments and expanding capabilities. The primary outcome of the CXFEL project is construction of a user-facility with instruments and end-stations, including validation of algorithms and experimental capabilities. The resulting facility will be accessible to a nationally and internationally distributed group of investigators from a range of different scientific disciplines.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

许多学科的现代科学问题越来越注重理解最小原子尺度的事件、变化和结构，亚利桑那州立大学建立紧凑型 X 射线自由电子激光器 (CXFEL) 设施将使这些高级研究成为可能，并完成一项紧迫的任务。广泛的美国研究界需要直接观察、操纵和控制复杂材料、分子和界面中的量子动力学，这些能力将揭示新的生物过程，实现新的节能技术，并解码可以驱动新计算的量子行为。方法和小说不同群体的本科生和研究生将参与这一中型研究基础设施开发工作的科学和项目管理方面，基础设施培训和广泛的研究人员获得变革性新仪器的结合将服务于 NSF 的优先任务。 CXFEL 是一种新型仪器，可产生亚飞秒相干 X 射线，用于分析一系列样品。CXFEL 建立在激光技术和电子束物理学的最新进展之上，可产生房间大小的样品。 X射线激光（大约 10m 长）在时间和空间上具有完全相干性，CXFEL 将使用电子束图案独特地提供对 X 射线相位的完全控制，从而允许定制光束的时间结构，例如阿秒脉冲、非常窄的线宽、不同颜色的多个脉冲之间的极其精确的定时将被配置为支持 X 射线光谱、小角度和广角 X 射线散射、一致阿秒。用于生物学、量子材料、原子和分子科学以及光学科学研究的动量成像和时间分辨X射线晶体学在建造过程中，复杂的机器学习软件将与硬件集成，以创建高度灵活和高效的超快科学仪器。响应 NSF 的重大理念，包括中型研究基础设施、生命规则、量子飞跃和利用数据革命，这些软件工具将有助于指导大型数据集的获取和分析，加快实验速度并扩展能力。 CXFEL 项目正在建设一个带有仪器和终端站的用户设施，包括算法和实验能力的验证，最终的设施将可供来自不同科学学科的国内外研究人员使用。通过使用基金会的智力价值和更广泛的影响审查标准进行评估，NSF 的法定使命被认为值得支持。