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Quantum systems carry information in a fashion drastically differently from that of classical systems. What characterizes their difference? What is the nature of quantum information as a physical entity? Our group tackles this problem by studying informational behaviors of quantum systems in the theories of quantum correlation, catalysis of quantum resources and quantum thermodynamics. We focus on solving theoretical open problems of fundamental interest with connection to real-life applications.
Major research field
Catalytic quantum randomness, Quantum masking and secret sharing, Quantum thermodynamics
Desired field of research
Catalysis of quantum resources, Quantum state over time
Research Keywords and Topics
· Quantum information theory
· Quantum resource theory
· Quantum correlation
· Quantum randomness
· Quantum foundation
Research Publications
· Seok Hyung Lie and Hyunseok Jeong, "Faithfulness and sensitivity for ancilla-assisted process tomography", Phys. Rev. Lett. 130, 020802 (2023)
· Seok Hyung Lie and Hyunseok Jeong, "Delocalized and dynamical catalytic randomness and information flow", Phys. Rev. A 107, 042430 (2023)
· Seok Hyung Lie, Hyukjoon Kwon, M.S. Kim and Hyunseok Jeong, "Quantum one-time tables for unconditionally secure qubit-commitment", Quantum 5, 405 (2021)
· Seok Hyung Lie and Hyunseok Jeong, “Randomness cost of masking quantum information and the information conservation law", Physical Review A 101, 052322 (2020)
· Seok Hyung Lie and Hyunseok Jeong, "Limitations of teleporting a qubit via a two-mode squeezed state", Photonics Research, 7(5):A7, (2019)
국가과학기술표준분류
- NB. 물리학
- NB07. 원자·분자물리
- NB0703. 양자정보