Publication

  1. Jeongrak Son, Ray Ganardi, Shintaro Minagawa, Francesco Buscemi, Seok Hyung Lie, and Nelly H.Y. Ng, “Catalytic Channels Aret the Only Noise-Robust Catalytic Processes”, Physical Review Lett., 136, 050202 (2026)
  2. Seok Hyung Lie and James Fullwood, “Multipartite Quantum States over Time from Two Fundamental Assumptions”, Physical Review Lett., 135, 230204 (2025)
  3. Seok Hyung Lie and Nelly Ng, “Quantum state over time is unique”, Physical Review Research 6, 033144 (2024)
  4. Seok Hyung Lie and Nelly Ng, “Catalysis always degrades external quantum correlations”, Physical Review A 108, 012417 (2023)
  5. Seok Hyung Lie and Hyunseok Jeong, “Delocalized and dynamical catalytic randomness and information flow”, Physical Review A 107, 042430 (2023)
  6. Seok Hyung Lie and Hyunseok Jeong, “Faithfulness and sensitivity for ancilla-assisted process tomography”, Physical Review Lett. 130, 020802 (2023)
  7. Seok Hyung Lie and Hyunseok Jeong, “Catalytic quantum randomness as a correlational resource”, Physical Review Research 3, 043089 (2021).
  8. Seok Hyung Lie, Seongjeon Choi, and Hyunseok Jeong. “The Min-entropy as a Resource for One-Shot Private State Transfer, Quantum Masking and State Transition.” Physical Review A 103 (4), 042421 (2021).
  9. Seok Hyung Lie, Hyukjoon Kwon, M.S. Kim and Hyunseok Jeong. ” Quantum one-time tables for unconditionally secure qubit-commitment.” Quantum 5, 405 (2021).
  10. Seok Hyung Lie, and Hyunseok Jeong. ” Randomness for quantum channels: Genericity of catalysis and quantum advantage of uniformness.” Physical Review Research 3 (1), 013218 (2021).
  11. Seok Hyung Lie and Hyunseok Jeong, “Randomness cost of masking quantum information and the information conservation law”, Physical Review A 101, 052322, (2020).
  12. Changhun Oh, Changhyoup Lee, Seok Hyung Lie and Hyunseok Jeong, “Optimal distributed quantum sensing using Gaussian states”, Physical Review Research 2, 023030, (2020).
  13. Seok Hyung Lie and Hyunseok Jeong, “Limitations of teleporting a qubit via a two-mode squeezed state”, Photonics Research, 7(5):A7, (2019).