Jonathan Oppenheim

Research Interests

Quantum Information theory, black hole thermodynamics, foundations of quantum mechanics, and quantum gravity.

Latest Papers

  1. Public Quantum Communication and Superactivation. (arXiv:1005.1975v1 [quant-ph])
    Fernando G.S.L. Brandão, Jonathan Oppenheim
  2. The quantum one-time pad in the presence of an eavesdropper. (arXiv:1004.3328v1 [quant-ph])
    Fernando G.S.L. Brandão, Jonathan Oppenheim
  3. If quantum mechanics were more non-local it would violate the uncertainty principle. (arXiv:1004.2507v1 [quant-ph])
    Jonathan Oppenheim, Stephanie Wehner
  4. For quantum information, two wrongs can make a right. (arXiv:1004.0052v1 [quant-ph])
    Jonathan Oppenheim
  5. Quantum mutual independence. (arXiv:0902.0912v2 [quant-ph] UPDATED)
    Michal Horodecki, Jonathan Oppenheim, Andreas Winter
  6. State redistribution as merging: introducing the coherent relay. (arXiv:0805.1065v1 [quant-ph])
    Jonathan Oppenheim
  7. A paradigm for entanglement theory based on quantum communication. (arXiv:0801.0458v1 [quant-ph])
    Jonathan Oppenheim
  8. Squashed entanglement for multipartite states and entanglement measures based on the mixed convex roof. [arXiv:0704.2236v2 UPDATED]
    Dong Yang, Karol Horodecki, Michal Horodecki, Pawel Horodecki, Jonathan Oppenheim, Wei Song
  9. Unconditional privacy over channels which cannot convey quantum information

    10. Horodecki, Karol, Horodecki, Michal, Horodecki, Pawel, Leung, Debbie, Oppenheim, Jonathan
  10. Equilibrium temperature anisotropy and black-hole analogues

    11. Oi, Daniel K. L., Oppenheim, Jonathan
  11. Quantum network communication -- the butterfly and beyond. (arXiv:quant-ph/0608223v5 UPDATED)
    Debbie Leung, Jonathan Oppenheim, Andreas Winter
  12. Unifying classical and quantum key distillation
    Matthias Christandl, Artur Ekert, Michal Horodecki, Pawel Horodecki, Jonathan Oppenheim, Renato Renner
    Proceedings of the 4th Theory of Cryptography Conference, Lecture Notes in Computer Science vol. 4392, pp. 456-478, 2007
  13. Quantum key distribution based on private states: unconditional security over untrusted channels with zero quantum capacity. (arXiv:quant-ph/0608195v4 UPDATED)
    Karol Horodecki, Michal Horodecki, Pawel Horodecki, Debbie Leung, Jonathan Oppenheim
  14. A classical analogue of negative information. (arXiv:quant-ph/0511247v2 UPDATED)
    Jonathan Oppenheim, Robert W. Spekkens, Andreas Winter
  15. Uncommon information (the cost of exchanging a quantum state). (arXiv:quant-ph/0511082v2 UPDATED)
    Jonathan Oppenheim, Andreas Winter