Curriculum Vitae

Education

• Ph.D. in Plasma Physics, POSTECH, Korea (2015–2021)
• B.S. in Physics, POSTECH, Korea (2008–2015)

Experience

• ASML, Senior Plasma & Laser Physics Engineer — EUV Source Development (2022–Present, San Diego, CA)
• POSTECH, Postdoctoral Research Fellow (2021–2022, Pohang, Korea)
• APCTP, Postdoctoral Research Fellow (2021, Pohang, Korea)

Ph.D. Thesis

Strongly coupled plasma in inhomogeneous supercritical fluid (POSTECH, 2021). Link

Skills

• Laser-produced plasmas, EUV lithography light sources
• Diagnostics: spectroscopy, fast ICCD imaging
• Analysis: Python, Mathematica, Matlab, LaTeX

Publications

1. S. Lee*, J. Lee*, Y. D. Yoon, D. E. Kim, & G. Yun. Characterization of strongly coupled plasmas produced in argon supercritical fluids. Plasma Physics and Controlled Fusion, 64(9), 095010. 2022. Link
2. K. Kim, W. Nam, S. Lee, J. Lee, S. Shim, & G. Yun. Mode transition (α–γ) and hysteresis in microwave-driven low-temperature plasmas. Plasma Sources Science and Technology, 32(10), 105006. 2022. Link
3. S. Lee, J. Lee, Y. Kim, S. Y. Jeong, D. E. Kim, & G. Yun. Quasi-equilibrium phase coexistence in single component supercritical fluids. Nature Communications, 12, 4630. 2021. Link
4. J. Lee, W. Nam, S. Lee, J. K. Lee, & G. Yun. Sheath and bulk expansion induced by RF field in atmospheric pressure microwave plasma. Plasma Sources Science and Technology, 27(7), 075008. 2018. Link
5. W. Nam*, S. Lee*, S. Y. Jeong, J. K. Lee, & G. Yun. Asymmetric frequency dependence of plasma jet formation in resonator electrode. European Physical Journal D, 71(5), 134. 2017. Link
6. S. Lee*, W. Nam*, J. K. Lee, & G. Yun. In situ impedance measurement of microwave atmospheric pressure plasma. Plasma Sources Science and Technology, 26(4), 045004. 2017. Link

Honors & Grants

• NRF Fellowship for Ph.D. Research — “Fostering the Next Generation Researchers” (2019)
• 2nd Place, Student Poster Presentation, GEC 2019 (2019)