866 citations to 10.1109/18.651037 (Crossref Cited-By Service)
  1. Frederic Dupuis, Oleg Szehr, Marco Tomamichel, “A Decoupling Approach to Classical Data Transmission Over Quantum Channels”, IEEE Trans. Inform. Theory, 60, № 3, 2014, 1562  crossref
  2. T. Ogawa, H. Nagaoka, “Making Good Codes for Classical-Quantum Channel Coding via Quantum Hypothesis Testing”, IEEE Trans. Inform. Theory, 53, № 6, 2007, 2261  crossref
  3. Uzi Pereg, Christian Deppe, Holger Boche, “Communication With Unreliable Entanglement Assistance”, IEEE Trans. Inform. Theory, 69, № 7, 2023, 4579  crossref
  4. A. Winter, “Coding theorem and strong converse for quantum channels”, IEEE Trans. Inform. Theory, 45, № 7, 1999, 2481  crossref
  5. Peter J. Winzer, “Would Scaling to Extreme Ultraviolet or Soft X-Ray Communications Resolve the Capacity Crunch?”, J. Lightwave Technol., 36, № 24, 2018, 5786  crossref
  6. S. Bäuml, A. Winter, D. Yang, “Every entangled state provides an advantage in classical communication”, Journal of Mathematical Physics, 60, № 7, 2019, 072201  crossref
  7. Lorenzo M. Procopio, Francisco Delgado, Marco Enríquez, Nadia Belabas, Juan Ariel Levenson, “Sending classical information via three noisy channels in superposition of causal orders”, Phys. Rev. A, 101, № 1, 2020, 012346  crossref
  8. Akira Sone, Naoki Yamamoto, Tharon Holdsworth, Prineha Narang, “Jarzynski-like equality of nonequilibrium information production based on quantum cross-entropy”, Phys. Rev. Research, 5, № 2, 2023, 023039  crossref
  9. Erickson Tjoa, “Quantum teleportation with relativistic communication from first principles”, Phys. Rev. A, 106, № 3, 2022, 032432  crossref
  10. Marek Mozrzymas, Michał Studziński, Nilanjana Datta, “Structure of irreducibly covariant quantum channels for finite groups”, Journal of Mathematical Physics, 58, № 5, 2017, 052204  crossref
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