基本信息
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职业迁徙
个人简介
Nam has published more than 120 journal papers and gives invited talks in international conferences. He served as a steering committee member of OECD Global Science Forum on Compact High-Intensity Short-Pulse Lasers (2001-2003) that eventually became ICUIL (Int. Comm. on Ultra-high Intensity Lasers) - a working group of IUPAP, and is a scientific advisory committee member of ELI - ALPS (Extreme Light Infrastructure/ Attosecond Light Pulse Source) – the EU program for the PW laser facility in Hungary started from 2011.
He has served as conference chairs (ICXRL in 2010, ISUILS in 2012), organizing chairs (APLS in 2008, 2010, 2012) or program chairs (CLEO-Pacific Rim in 2007, 2009). He is on the editorial boards of J. Phys. B as an international advisory committee member since 2007 and as a guest editor in 2012; IEEE Photonics Journal as an associate editor (from 2009 to 2011). He has represented Korea in international committees (ICQE from 2005 to 2012; CLEO-PR from 2012; Commission on Quantum Electronics of IUPAP since 2008). He has been instrumental in launching the Asian Intense Laser Network in 2004, serving as the first secretary
Awards
2020: Presidential Citation, Government Science Day Award, Ministry of Science and ICT[4][5]
2011: Sungdo Optical Science Award of the Optical Society Korea
2010: Award from the National Academy of Science, Korea[6][7][8]
2009: Fellow of the Optical Society of America[9]
2008: Fellow of the American Physical Society[10]
Main research activities
The Center for Relativistic Laser Science (CoReLS) was established in December 2012 to explore novel physical phenomena in the relativistic laser intensity regime. The electron motion enters the relativistic regime at a laser intensity of 1018W/cm2, while protons behave relativistically at 1024W/cm2. To tackle the underlying physics of relativistic laser-matter interactions, the center utilizes a 30-fs petawatt (PW) laser facility developed at Gwangju Institute of Science and Technology (GIST). It is a challenging task to reveal the physics of relativistic and ultra-relativistic laser-matter interactions. We examine the fundamental physical processes in atoms, molecules, plasmas, we explore subatomic entities occurring in an ultra-fast timescale (atto- to zepto-second), and we develop high-energy, ultra-short particle (electron, proton, and ion) beams and radiation (X-ray and γ-ray) sources. Sophisticated methods of controlling the spatio-temporal structure of ultra-intense laser pulses are to be developed to precisely manipulate relativistic laser-matter interactions. Such developments will allow us to achieve our goals by steering the interaction processes (e.g., relativistic harmonic generation at extreme orders, mono-energetic electron acceleration over GeV, energetic proton generation with narrow bandwidths; strong X-ray and γ-ray generation).
He has served as conference chairs (ICXRL in 2010, ISUILS in 2012), organizing chairs (APLS in 2008, 2010, 2012) or program chairs (CLEO-Pacific Rim in 2007, 2009). He is on the editorial boards of J. Phys. B as an international advisory committee member since 2007 and as a guest editor in 2012; IEEE Photonics Journal as an associate editor (from 2009 to 2011). He has represented Korea in international committees (ICQE from 2005 to 2012; CLEO-PR from 2012; Commission on Quantum Electronics of IUPAP since 2008). He has been instrumental in launching the Asian Intense Laser Network in 2004, serving as the first secretary
Awards
2020: Presidential Citation, Government Science Day Award, Ministry of Science and ICT[4][5]
2011: Sungdo Optical Science Award of the Optical Society Korea
2010: Award from the National Academy of Science, Korea[6][7][8]
2009: Fellow of the Optical Society of America[9]
2008: Fellow of the American Physical Society[10]
Main research activities
The Center for Relativistic Laser Science (CoReLS) was established in December 2012 to explore novel physical phenomena in the relativistic laser intensity regime. The electron motion enters the relativistic regime at a laser intensity of 1018W/cm2, while protons behave relativistically at 1024W/cm2. To tackle the underlying physics of relativistic laser-matter interactions, the center utilizes a 30-fs petawatt (PW) laser facility developed at Gwangju Institute of Science and Technology (GIST). It is a challenging task to reveal the physics of relativistic and ultra-relativistic laser-matter interactions. We examine the fundamental physical processes in atoms, molecules, plasmas, we explore subatomic entities occurring in an ultra-fast timescale (atto- to zepto-second), and we develop high-energy, ultra-short particle (electron, proton, and ion) beams and radiation (X-ray and γ-ray) sources. Sophisticated methods of controlling the spatio-temporal structure of ultra-intense laser pulses are to be developed to precisely manipulate relativistic laser-matter interactions. Such developments will allow us to achieve our goals by steering the interaction processes (e.g., relativistic harmonic generation at extreme orders, mono-energetic electron acceleration over GeV, energetic proton generation with narrow bandwidths; strong X-ray and γ-ray generation).
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Yang Hwan Kim,Hyeon Kim, Seong Cheol Park, Yongjin Kwon, Kyunghoon Yeom,Wosik Cho, Taeyong Kwon,Hyeok Yun,Jae Hee Sung,Seong Ku Lee,Tran Trung Luu,Chang Hee Nam,
APPLIED PHYSICS B-LASERS AND OPTICSno. 4 (2023): 1-10
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