IUCRC Phase I Vanderbilt University: Electronic-Photonic Integrated Circuits for Aerospace (EPICA)

IUCRC 第一阶段范德比尔特大学：航空航天电子光子集成电路 (EPICA)

• 批准号: 2052742
• 负责人: Ronald Schrimpf
• 金额: $ 62.5万
• 依托单位: Vanderbilt University
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2021
• 资助国家: 美国
• 起止时间: 2021-06-01 至 2026-05-31
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2052742&HistoricalAwards=false
• 关键词: IUCRC; Phase; Vanderbilt; University; Electronic

As mankind continues to expand a wide range of activities into space to support essential communications, climate monitoring, research and exploration, it is imperative to establish the viability and safety of key enabling integrated electronics and photonic technologies for operation in harsh environments. Integrated photonics enable systems with unmatched power efficiency, longevity and capability thus improving everything from internet availability and reliability around the planet to improving environmental sensing and enhanced security by enabling robust DoD systems. The objective of Electronic-Photonic Integrated Circuits for Aerospace (EPICA) is to enable the use of increasingly sophisticated electronics and photonics in communications and sensing applications for space-borne and aerospace platforms. The diverse team of component, systems and aerospace researchers will collaborate to advance knowledge of associated environmental considerations, and craft specific components and architectures to meet the unique reliability and performance requirements.EPICA’s objective is to enable the next wave of communications and sensing technologies for aerospace and space-borne platforms. The focus is on investigating the reliability of these devices and systems operating in extreme environments such as space. The project has three major thrusts: i) Assessment, understanding, and development of robust integrated photonic hardware for reliable operation under radiation and temperature extremes; ii) Development of components and architectures using system-level methods and tools to extract maximum advantage of integrated photonic systems for aerospace platforms; iii) Definition of flight hardware and mission architectures for subsequent flight demonstration. A three-university team, comprised of Georgia Tech, The University of Central Florida and Vanderbilt University, with complementary expertise and facilities, will apply both analytical and experimental capabilities to this project. Vanderbilt researchers will investigate combined radiation and temperature effects on electronic-photonic devices and integrated circuits. This research will be conducted in collaboration with researchers at the other Center locations.EPICA will advance US-based capabilities in the design and manufacture of robust integrated electronics and photonics, enabling reliable internet access around the planet and creating new environmental sensing capabilities. The EPICA team is also actively creating a diverse workforce that includes a mentoring program designed to increase the success of students from underrepresented groups in areas of advanced photonics, electronics and optical sciences. Each site will engage professional societies and have active Bridge Programs to support and transition underrepresented students from the baccalaureate level to graduate school.A project repository for data, code, results, IAB meeting summaries and publications will be digitally archived. Each site will maintain their own local storage and Georgia Tech will manage a comprehensive cloud storage site accessible to the project partners. The repository will be maintained continuously from the first year and for three years after conclusion of the award.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.

随着人类继续将广泛的活动扩展到空间，以支持必要的通信、气候监测、研究和探索，必须建立关键的集成电子和光子技术的可行性和安全性，以便在恶劣环境中运行。集成光子学使系统具有无与伦比的功率效率、寿命和能力，从而改善了从全球互联网可用性和可靠性到改善环境感知和通过启用强大的国防部系统增强安全性的一切。航空航天电子-光子集成电路（EPICA）的目标是使日益复杂的电子和光子学在空间和航空航天平台的通信和传感应用中得以使用。组件、系统和航空航天研究人员的多元化团队将合作推进相关环境考虑的知识，以及工艺特定组件和架构，以满足独特的可靠性和性能要求。EPICA的目标是为航空航天和天基平台实现下一波通信和传感技术。重点是研究这些设备和系统在太空等极端环境下运行的可靠性。该项目有三个主要重点：1)评估、理解和开发强大的集成光子硬件，使其在辐射和极端温度下可靠运行；ii)使用系统级方法和工具开发组件和架构，以提取航空航天平台集成光子系统的最大优势；iii)为后续飞行演示定义飞行硬件和任务架构。由佐治亚理工学院、中佛罗里达大学和范德比尔特大学组成的三所大学团队，拥有互补的专业知识和设施，将为该项目应用分析和实验能力。范德比尔特大学的研究人员将研究辐射和温度对电子-光子器件和集成电路的综合影响。这项研究将与中心其他地点的研究人员合作进行。EPICA将推进美国在设计和制造强大的集成电子和光子学方面的能力，实现可靠的全球互联网接入，并创造新的环境传感能力。EPICA团队还积极创建多元化的员工队伍，其中包括一个指导计划，旨在提高来自先进光子学、电子学和光学科学领域代表性不足群体的学生的成功。每个网站都将与专业协会合作，并有积极的桥梁项目，以支持和过渡代表性不足的学生从学士阶段到研究生阶段。数据、代码、结果、IAB会议摘要和出版物的项目存储库将以数字方式存档。每个站点将维护自己的本地存储，佐治亚理工学院将管理一个全面的云存储站点，供项目合作伙伴访问。该存储库将从第一年开始持续维护，并在奖项结束后的三年内继续维护。该奖项反映了美国国家科学基金会的法定使命，并通过使用基金会的知识价值和更广泛的影响审查标准进行评估，被认为值得支持。