850 citations to 10.1109/18.651037 (Crossref Cited-By Service)
  1. G. G. Amosov, “Algebraic Methods of the Study of Quantum Information Transfer Channels”, J Math Sci, 241, № 2, 2019, 109  crossref
  2. M. Dalai, “A note on random coding bounds for classical-quantum channels”, Probl Inf Transm, 53, № 3, 2017, 222  crossref
  3. Akio Fujiwara, “Estimation of SU(2) operation and dense coding: An information geometric approach”, Phys. Rev. A, 65, № 1, 2001, 012316  crossref
  4. Vittorio Giovannetti, “Inequalities for quantum channels assisted by limited resources”, Phys. Rev. A, 71, № 6, 2005, 062332  crossref
  5. Farzin Salek, Anurag Anshu, Min-Hsiu Hsieh, Rahul Jain, Javier Rodriguez Fonollosa, “One-Shot Capacity Bounds on the Simultaneous Transmission of Classical and Quantum Information”, IEEE Trans. Inform. Theory, 66, № 4, 2020, 2141  crossref
  6. Igor Bjelakovic, Holger Boche, “Ergodic Classical-Quantum Channels: Structure and Coding Theorems”, IEEE Trans. Inform. Theory, 54, № 2, 2008, 723  crossref
  7. Sreetama Das, Titas Chanda, Maciej Lewenstein, Anna Sanpera, Aditi Sen De, Ujjwal Sen, Quantum Information, 2016, 127  crossref
  8. Masato Koashi, Nobuyuki Imoto, “Compressibility of Quantum Mixed-State Signals”, Phys. Rev. Lett., 87, № 1, 2001, 017902  crossref
  9. Uzi Pereg, Christian Deppe, Holger Boche, “Quantum broadcast channels with cooperating decoders: An information-theoretic perspective on quantum repeaters”, Journal of Mathematical Physics, 62, № 6, 2021, 062204  crossref
  10. G. J. Pryde, J. L. O’Brien, A. G. White, Stephen D. Bartlett, “Demonstrating Superior Discrimination of Locally Prepared States Using Nonlocal Measurements”, Phys. Rev. Lett., 94, № 22, 2005, 220406  crossref
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