Ph.D. in Applied Physics, California Institute of Technology (2022); Advisor: Prof. Marco Bernardi
M.S. in Applied Physics, California Institute of Technology (2020); Advisor: Prof. Marco Bernardi
B.S. in Electrical and Computer Engineering. B.S. in Physics. Summa Cum Laude, Seoul National University (2016)
Professional Affiliations
American Physical Society (APS)
Materials Research Society (MRS)
Areas of Interest
Electron-phonon interaction
Many-body perturbation theory
Spin dynamics in materials
Experience
2023-Present: Postdoctoral Scholar, University of Chicago
2022-2023: Postdoctoral Scholar, Bernardi Lab (Advisor: Prof. Marco Bernardi), California Institute of Technology
2016-2022: Graduate Research Assistant, Bernardi Lab (Advisor: Prof. Marco Bernardi), California Institute of Technology
2015-2016: Undergraduate Researcher, Seoul National University, Condensed Matter Theory Lab (Advisor: Prof. Jaejun Yu)
2013-2015: Undergraduate Researcher, Seoul National University, Photonic System Lab (Advisor: Prof. Namkyoo Park)
Publications
Y. Luo, D. Desai, B. K. Chang, J. Park, and M. Bernardi Data-Driven Compression of Electron-Phonon Interactions Phys. Rev. X14, 021023 (2024).
D. Desai*, J. Park*, J.-J. Zhou, and M. Bernardi (*Equal Contributors) Dominant Two-Dimensional Electron-Phonon Interactions in the Bulk Dirac Semimetal Na3Bi Nano Lett.23, 3947-3953 (2023).
J. Park, J.-J. Zhou, Y. Luo, and M. Bernardi Predicting Phonon-Induced Spin Decoherence from First Principles: Colossal Spin Renormalization in Condensed Matter Phys. Rev. Lett.129, 197201 (2022).
I.-T. Lu, J.-J. Zhou, J. Park, and M. Bernardi First-principles ionized-impurity scattering and charge transport in doped materials Phys. Rev. Mater.6, L010801 (2022).
I. Maliyov, J. Park, and M. Bernardi Ab initio electron dynamics in high electric fields: Accurate prediction of velocity-field curves Phys. Rev. B104, L100303 (2021).
J.-J. Zhou*, J. Park*, I. Timrov, A. Floris, M. Cococcioni, N. Marzari, and M. Bernardi (*Equal Contributors) Ab initio electron-phonon interactions in correlated electron systems Phys. Rev. Lett.127, 126404 (2021).
J.-J. Zhou, J. Park, I.-T. Lu, I. Maliyov, X. Tong, and M. Bernardi Perturbo: A software package for ab initio electron-phonon interactions, charge transport and ultrafast dynamics Comput. Phys. Commun.264, 107970 (2021).
V.A. Jhalani, J.-J. Zhou, J. Park, C.E. Dreyer, and M. Bernardi Piezoelectric Electron-Phonon Interaction from Ab Initio Dynamical Quadrupoles: Impact on Charge Transport in Wurtzite GaN. Phys. Rev. Lett.125, 136602 (2020).
J. Park, J.-J. Zhou, V.A. Jhalani, C.E. Dreyer, and M. Bernardi Long-range quadrupole electron-phonon interaction from first principles. Phys. Rev. B102, 125203 (2020).
I.-T. Lu, J. Park, and M. Bernardi Ab initio electron-defect interactions using Wannier functions. npj Comput. Mater.6, 17 (2020).
J. Park, J.-J. Zhou, and M. Bernardi Spin-phonon relaxation times in centrosymmetric materials from first principles. Phys. Rev. B101, 045202 (2020).
Honors and Awards
Chicago Prize Postdoctoral Fellowship in Theoretical Quantum Science (2023)
Korea Foundation for Advanced Studies (KFAS) Doctoral Fellowship (2016)
Seoul National University President’s Award for Best Undergraduate Research (2014)
Korea National Scholarship for Science and Engineering (2008)
