사진

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Park, Jung-Hoon (박정훈)

Department
Department of Biomedical Engineering(바이오메디컬공학과)
Website
http://www.biooptics.org
Lab
Bio-Optics Lab. (바이오광학 연구실)
Research Keywords
전산 이미징, 뉴로포토닉스, 홀로그래피, 인비보 이미징, 바이오광학, Biomedical optics, wavefront shaping, Computational Imaging, Neurophotonics, In-vivo Superresolution Imaging, Holography
Research Interests
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.
This table browses all dspace content
Issue DateTitleAuthor(s)TypeViewAltmetrics
2020-09Disordered Optics: Exploiting Multiple Light Scattering and Wavefront Shaping for Nonconventional Optical ElementsPark, Jung-Hoon; Park, Jongchan; Lee, KyeoReh, et alARTICLE187 Disordered Optics: Exploiting Multiple Light Scattering and Wavefront Shaping for Nonconventional Optical Elements
2020-09Dynamic Multi-modal Holograms of Conjugated Organogels via Dithering Mask LithographyOh, Jongwon; Baek, Daehye; Lee, Tae Kyung, et alARTICLE182
2020-08Tunable SIM: observation at varying spatiotemporal resolutions across the FOVWoo, Taeseong; Jung, Su Hyun; Ahn, Cheolwoo, et alARTICLE21 Tunable SIM: observation at varying spatiotemporal resolutions across the FOV
2020-07Increasing the enhancement factor for DMD-based wavefront shapingNam, Kibum; Park, Jung-HoonARTICLE87 Increasing the enhancement factor for DMD-based wavefront shaping
2019-12Fast diffraction-limited image recovery through turbulence via subsampled bispectrum analysisHwang, Byungjae; Woo, Taeseong; Park, Jung-HoonARTICLE176 Fast diffraction-limited image recovery through turbulence via subsampled bispectrum analysis
2019-07Overcoming the penetration depth limit in optical microscopy: Adaptive optics and wavefront shapingAhn, Cheolwoo; Hwang, Byungjae; Nam, Kibum, et alARTICLE314 Overcoming the penetration depth limit in optical microscopy: Adaptive optics and wavefront shaping
2018-10Perspective: Wavefront shaping techniques for controlling multiple light scattering in biological tissues: Toward in vivo applicationsPark, Jung-Hoon; Yu, Zhipeng; Lee, KyeoReh, et alARTICLE479 Perspective: Wavefront shaping techniques for controlling multiple light scattering in biological tissues: Toward in vivo applications
2017-06Large-field-of-view imaging by multi-pupil adaptive opticsPark, Jung-Hoon; Kong, Lingjie; Zhou, Yifeng, et alARTICLE653 Large-field-of-view imaging by multi-pupil adaptive optics
2015-10Measuring large optical reflection matrices of turbid mediaYu, Hyeonseung; Park, Jung-Hoon; Park, YongKeunARTICLE552 Measuring large optical reflection matrices of turbid media
2015-10One-Wave Optical Phase Conjugation Mirror by Actively Coupling Arbitrary Light Fields into a Single-Mode ReflectorLee, KyeoReh; Lee, Junsung; Park, Jung-Hoon, et alARTICLE594 One-Wave Optical Phase Conjugation Mirror by Actively Coupling Arbitrary Light Fields into a Single-Mode Reflector
2015-07High-resolution in vivo imaging of mouse brain through the intact skullPark, Jung-Hoon; Sun, Wei; Cui, MengARTICLE491 High-resolution in vivo imaging of mouse brain through the intact skull
2015-04Focusing through turbid media by polarization modulationPark, Jongchan; Park, Jung-Hoon; Yu, Hyeonseung, et alARTICLE580 Focusing through turbid media by polarization modulation
2014-10LCD panel characterization by measuring full Jones matrix of individual pixels using polarization-sensitive digital holographic microscopyPark, Jongchan; Yu, Hyeonseung; Park, Jung-Hoon, et alARTICLE594 LCD panel characterization by measuring full Jones matrix of individual pixels using polarization-sensitive digital holographic microscopy
2014-09Full-Field Subwavelength Imaging Using a Scattering SuperlensPark, Chunghyun; Park, Jung-Hoon; Rodriguez, Christophe, et alARTICLE645 Full-Field Subwavelength Imaging Using a Scattering Superlens
2014-04Depth-enhanced 2-D optical coherence tomography using complex wavefront shapingYu, Hyeonseung; Jang, Jaeduck; Lim, Jaeguyn, et alARTICLE552 Depth-enhanced 2-D optical coherence tomography using complex wavefront shaping
2013-06Subwavelength light focusing using random nanoparticlesPark, Jung-Hoon; Park, Chunghyun; Yu, HyeonSeung, et alARTICLE548 Subwavelength light focusing using random nanoparticles
2013-02Complex wavefront shaping for optimal depth-selective focusing in optical coherence tomographyJang, Jaeduck; Lim, Jaeguyn; Yu, Hyeonseung, et alARTICLE603 Complex wavefront shaping for optimal depth-selective focusing in optical coherence tomography
2012-08Active spectral filtering through turbid mediaPark, Jung-Hoon; Park, ChungHyun; Yu, Hyunseung, et alARTICLE635 Active spectral filtering through turbid media
2012-07Dynamic active wave plate using random nanoparticlesPark, Jung-Hoon; Park, Chunghyun; Yu, Hyunseung, et alARTICLE748 Dynamic active wave plate using random nanoparticles

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