Faculty Research Profile
Chung Hun Park
학력
· 2014: PhD in Physics, KAIST
· 2009: BS in Physics, Korea University
주요 경력
· 2016-Present: Assistant/Associate Professor, UNIST
· 2015-2016: Postdoctoral Researcher, Purdue University
· 2014-2015: Postdoctoral Researcher, HHMI Janelia Research Campus
수상/학회/외부활동
· 2018: POSCO TJ Park Young Professor Fellowship
· 2014: Best PhD Thesis Award
· 2013: Top 10 scientific news of 2013, Korean Federation of Science and Technology Societies
· 2013: Best Paper Award, ACP
· 2013: Travel Grant, Janelia Research Campus
· 2012: Best Paper Award, ACP
· 2017: Program Committee, IEEE EMBC
· 2017-Present: Organizing Committee, Annual Biophotonics Conference
· 2019-Present: Program Committee, IEEE Photonics Conference
바이오광학 연구실
Bio-Optics Lab
바이오광학 연구실은 불투명한 복잡매질을 통과한 빛의 진행방향을 마음대로 제어할 수 있는 새로운 광학개념 및 기법들을 개발하고 있습니다. 하얀 물체가 불투명한 이유는 복수산란으로 인해 모든 파장의 빛이 난반사되기 때문입니다. 우리 연구실의 궁극적인 목표는 빛을 효과적으로 제어하여 불투명한 생체 심부조직 내부 깊은 곳까지 비침습적으로 관찰 하여 빛을 이용한 다양한 질병 기전의 이해 및 치료, 그리고 생명현상의 기본원리를 이해하는 것입니다. 물리학, 공학, 생물학 분야의 전문지식을 포괄하는 융합연구를 추구하며 우리의 꿈을 향해 나아가는 동안 찾을 수 있는 다양한 주제들에 대해 호기심을 원동력 삼아 끊임없이 탐구하고자 합니다.
We are interested in developing new techniques to control the propagation of light through opaque media. The reason things look opaque (white) is because it reflects all wavelengths of light due to multiple scattering. The ultimate goal of our research is to control light so that we can noninvasively peek into thick opaque tissue for diagnosis and treatment of disease as well as for fundamental biological studies. We emphasize on interdisciplinary research that lies between physics, engineering, and biology and will venture into many different interesting paths that pop up along the way.
We are interested in developing new techniques to control the propagation of light through opaque media. The reason things look opaque (white) is because it reflects all wavelengths of light due to multiple scattering. The ultimate goal of our research is to control light so that we can noninvasively peek into thick opaque tissue for diagnosis and treatment of disease as well as for fundamental biological studies. We emphasize on interdisciplinary research that lies between physics, engineering, and biology and will venture into many different interesting paths that pop up along the way.
연구분야
Wavefront Shaping for Deep Tissue Imaging, Computational Imaging, Neurophotonics, In-vivo Superresolution Imaging, Holography, Diagnosis and Treatment
Wavefront Shaping for Deep Tissue Imaging, Computational Imaging, Neurophotonics, In-vivo Superresolution Imaging, Holography, Diagnosis and Treatment
연구 희망분야
Cool stuff I can't even imagine
Cool stuff I can't even imagine
연구주제
· 딥티슈 이미징을 위한 파면제어
Wavefront Shaping for Deep Tissue Imaging
· 전산 이미징
Computational Imaging
· 뉴로포토닉스
Neurophotonics
· In-vivo 초고해상도 이미징
In-vivo Superresolution Imaging
· 홀로그래피
Holography
· 빛을 이용한 질병진단 및 치료
Diagnosis and Treatment of Disease Using Light
· Wavefront Shaping for Deep Tissue Imaging
· Computational Imaging
· Neurophotonics
· In-vivo Superresolution Imaging
· Holography
· Diagnosis and Treatment of Disease Using Light
국가연구개발사업 기술 분류체계
국가과학기술표준분류
NB. 물리학 > NB05. 광학 > NB0506. 의광학
논문
· Optica, “Limiting the incident NA for efficient wavefront shaping through thin anisotropic scattering media", H Jin, B Hwang, S Lee, JH Park (2021.04)
· Optica, “Tunable SIM: observation at varying spatiotemporal resolutions across the FOV.", T Woo, SH Jung, C Ahn, B Hwang, H Kim, JH Kang, JH Park (2020.08)
· Nature Methods, “Large field of view imaging by Multi-Pupil-Adaptive-Optics.” JH Park, L Kong, Y Zhou, M Cui (2017.06
· Nature Photonics, "Subwavelength light focusing using random nanoparticles." , JH Park, C Park, HS Yu, J Park, S Han, J Shin, SH Ko, KT Nam, YH Cho, YK Park (2013.06)
특허
Method and apparatus for manipulating nearfield using light scattering. US patent no: 9279764 B2