Choi, Sangkook
Professor
quantum materials and quantum information science
Prof. Sangkook Choi's research focuses on understanding quantum many-body phenomena in quantum materials and leveraging this understanding in quantum information science. To this end, he is developing new theoretical methodologies based on classical computers and implementing them as general-purpose computer packages. Through these tools, he explores the potentials of quantum materials as new qubit materials. Recently, Prof. Choi has expanded his research into advancing quantum algorithms on quantum computers. His goal is to develop algorithms that can address challenges surpassing the capabilities of classical computing and gain deeper insights into quantum many-body phenomena
- · Professor, Korea Institute for Advanced Study, Korea, since 2022
- · Computational Scientist, Brookhaven National Lab, Upton, 2017-2022
- · Research Associates, Brookhaven National Lab, Upton, NY, USA 2016-2016
- · Postdoctoral Associates, Rutgers University, Piscataway, NJ, USA 2014-2015
Publications at KIAS
Selected Publications
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ComDMFT v.2.0: Fully Self-Consistent Ab Initio GW+EDMFT for the Electronic Structure of Correlated Quantum Materials
arXiv:2310.04613 -
Quantum Zeno Monte Carlo for Observable Measurement
arXiv:2403.02763 -
Quantum Random Power Method for Ground State Computation
arXiv:2408.08556 -
Hund Physics Landscape of two orbital system
Phys. Rev. Lett. 126, 206401 (2021) -
Nonlocal coulomb interaction and spin freezing crossover as a route to valence-skipping charge order
npj Quantum Materials 5, 1 (2020) -
ComDMFT: a Massively Parallel Computer Package for the Electronic Structure of Correlated-Electron systems
Comp. Phys. Comm. 244, 277 (2019) -
First-principles Treatment of Mott Insulators: Linearized QSGW+DMFT Approach
npj Quantum Materials 1, 16001 (2016) -
Electron Supercollimation in Graphene and Dirac Fermion Materials Using One-Dimensional Disorder Potentials
Phys. Rev. Lett 113, 026802 (2014) -
Observing Atomic Collapse Resonances in Artificial Nuclei on Graphene
Science, 340, 734 (2013) -
Mechanism for Optical Initialization of Spin in NV-center in Diamond
Phys. Rev. B 86, 041202(R) (2012) -
Localization of Metal-Induced Gap States at the MetalInsulator Interface: Origin of Flux Noise in SQUIDs and Superconducting Qubits
Phys. Rev. Lett. 103, 197001 (2009)
- Office: 1328 / TEL) 82-2-958-2633 /
- School of Computational Sciences, Korea Institute for Advanced Study
- 85 Hoegiro Dongdaemun-gu, Seoul 02455, Republic of Korea.