通知通告

新闻类别:通知通告
2019-05-05

【报告通知】Pursuing Photonics through Cross-Disciplinary Analogy

报告题目:Pursuing Photonics through Cross-Disciplinary Analogy

时       间2019年5月6日10:30 

地       点:武汉光电国家研究中心 D302

报  告 人:Haohua Tu(涂浩华), 贝克曼高级科学技术研究所

邀 请 人付玲 教授


【BIOGRAPHY】

Haohua Tu is a Senior Research Scientist at Beckman Institute for Advanced Science and Technology, University of Illinois at Urbana-Champaign. He has exposure to a wide variety of disciplines in his scientific career, including chemical engineering, materials science, optics, spectroscopy, photonic devices, and biomedical imaging. He and Prof. Stephen Boppart are currently managing Biophotonics Imaging Laboratory that focuses on developing novel optical biomedical diagnostic and imaging technologies and translating them into clinical applications.  Dr. Tu received his B.S. in Chemical Engineering from Tsinghua University in 1992, and Ph.D. in Chemical Engineering and Material Sciences from University of Kentucky in 2001.  He has published over 70 invited and contributed publications, including those in top journals such as Nature Photonics, Nature Physics, Nature Communications, and Science Advances, and over 4 patents related to laser source engineering and optical biomedical imaging technology.  He has mentored over 40 graduate and post-graduate interdisciplinary researchers.    Dr. Tu has been a strong advocate for the integration of engineering and medicine to advance human health and our healthcare systems.


ABSTRACT】

Scientific breakthroughs often arise from the intersections among different disciplines. This observation not only demands the investigators to acquire cross-disciplinary knowledge, but also to quantitatively or qualitatively connect similar phenomena through analogy. Although analogy is a well-recognized method in theoretical studies, it has been relatively underappreciated in experimental researches. Here, based on a personal journey that exploits multifaceted aspects of experimental photonics, I intend to convey the message how analogy is ubiquitous and may lead to new discoveries, how analogy mitigates cross-disciplinary barrier and enables synergetic collaboration, and how analogy inspires investigators to conduct research free of special intentions. This message will be conveyed through four representative themes, i.e. “Toward quantum biology”, “Scientist as a magician”, “Optical fiber playground”, and “Photonic transformation of pathology”.