Papers

You can also find my works on Google Scholar and arXiv.

Published (and accepted) papers

Preprints

  1. Shintaro Minagawa and Ravi Kunjwal, All star-incompatible measurements can certify steering-based randomness, arXiv:2603.12024.

Thesis

My Ph.D. thesis, titled On Incompatibility and Thermodynamics of Measurement Processes, won Nagoya University Okamoto Young Researcher Encouragement Award, an award which is given annually to two individuals for outstanding doctoral theses submitted to Nagoya University in the fields of natural science and technology.

My master thesis, titled Entropy and Thermodynamics in General Probabilistic Theories, has not been made public. If you want to read it, please contact me. I would send it you except for a subsection with unpublished results.

Physical Review style reference information

  1. J. Son, R. Ganardi, S. Minagawa, F. Buscemi, S. H. Lie, and N. H. Y. Ng, Catalytic channels are the only noise-robust catalytic processes, Phys. Rev. Lett. 136, 050202 (2026).
  2. S. Minagawa, M. H. Mohammady, K. Sakai, K. Kato, and F. Buscemi, Universal validity of the second law of information thermodynamics, npj Quantum Information 11,18 (2025).
  3. S. Minagawa and H. Arai, One-shot and asymptotic classical capacity in general physical theories, Phys. Rev. A 109, 062416 (2024).
  4. F. Buscemi, K. Kobayashi, and S. Minagawa, A complete and operational resource theory of measurement sharpness, Quantum 8, 1235 (2024).
  5. F. Buscemi, K. Kobayashi, S. Minagawa, P. Perinotti, and A. Tosini, Unifying different notions of quantum incompatibility into a strict hierarchy of resource theories of communication, Quantum 7, 1035 (2023).
  6. R. Takagi, S. Endo, S. Minagawa, and M. Gu, Fundamental limits of quantum error mitigation, npj Quantum Information 8, 114, (2022).
  7. S. Minagawa, H. Arai, and F. Buscemi, Von Neumann’s information engine without the spectral theorem, Phys. Rev. Res. 4, 033091, (2022).