表面彩虹和热学光子学结构中的光与物质相互作用及其应用

Speaker
甘巧强
Title
教授
Affiliation
阿卜杜拉国王科技大学
Time
2023-06-02 (Fri) 11:00
Location
上海研究院4号楼329报告厅(合肥物质楼B1102同步视频)
Abstract

报告摘要:
这个报告将展示两部分主要研究内容。
第一部分:Trapped rainbow storage of light这个概念于2007年首次提出[1],在过去约15年时间里取得了很多有趣的光学研究成果[2]。首先我将分享一下在过去15年时间里“彩虹”俘获这个领域的研究进展,并且介绍我的课题组在基础物理[3,4]和实际应用角度所作的一些尝试[5],特别包括片上生物医疗诊断[6]和深度学习的小型化光谱仪[7]。
第二部分:我们将讨论新型热学光子学结构用于无电辐射制冷的研究进展[8,9],并展示这一技术在应对人类日益恶化的生存环境中的可能应用[10-12]。
最后,我还将向大家介绍一下位于沙特阿拉伯的KAUST的一些基本科研条件、研究领域和日常生活状况。
[1] Nature 450, 397 (2007)
[2] Science 358, aan5196 (2017)
[3] PRL 100, 256803 (2008)
[4] PRL 102, 056801 (2009)
[5] PNAS 108, 5169 (2011)
[6] Engineering 17, 75 (2022)
[7] Nature Comm. 14, 1902 (2023)
[8] Nature 515, 540–544 (2014)
[9] Science 370, 786-791 (2020)
[10] Nature Sustainability 2, 718 (2019)
[11] PNAS 118, e2019292118 (2021)
[12] Cell Reports Physical Science 2, 100338 (2021)

报告人简介:
Dr. Qiaoqiang Gan is a Full Professor in the Material Science Engineering, King Abdullah University of Science & Technology. He received his PhD degree from Lehigh University in 2010. He is the Fellow of Optica (formally OSA) and Fellow of SPIE. He is the recipient of Exceptional Young Investigator of University at Buffalo (2016) and SUNY Chancellor’s Award for Excellence in Scholarship & Creative Activities (2019). He is the founder of Sunny Clean Water LLC (2016), a high-tech start-up company working on solar water purification technologies. His research publications include over 100 technical papers and 4 patents, with the total citation of over 7600 and H-index of 44. He serves as the editor in chief for IEEE JSTQE, associate editor for IEEE Photonics Journal, J. of Photonics for Energy (SPIE), PhotoniX (Springer), and sub-committee chair of S&I9 Photonics Integration (CLEO 2019-2020), Program Chair of S&I program CLEO 2021 and will serve as the General Chair of S&I program CLEO 2023. He organized a special symposium, Biomedical Sensors in Service of Society, for AAAS annual meeting 2018. He also served as a guest editor of special issues of Journal of Photonics for Energy (SPIE) on “Hot carrier generation” in 2016; Chinese Optics Letters (OSA) on “Metasurface” in 2018. His research activities on optical sensing and energy sustainability have been widely featured by Science, Nature, Nature Middle East, Nature Photonics, Nature Sustainability, BBC, Mirror, Salon, etc.