Terhal Group

 

The items shown can be restricted to RWTH publications via the yellow box on the left. The complete list also contains earlier publications of the PIs.


Filter by research group: All Quantum Technology Group DiVincenzo Hassler

Showing 51 - 60 of 60 Results

  • Title
    Author(s)
    Details
  • Robust cryptography in the noisy-quantum-storage model
    Quantum information & computation : QIC 9, 963-996 (2009)
    Schaffner, Christian
    Terhal, Barbara Maria
    Wehner, Stephanie
    Details
  • Comparative code study for quantum fault tolerance
    Quantum information & computation : QIC 9, 541-572 (2009)
    Cross, Andrew W.
    DiVincenzo, David P.
    Terhal, Barbara Maria
    Details
  • The complexity of quantum spin systems on a two-dimensional square lattice
    Quantum information & computation : QIC 8, 900-924 (2008)
    Oliveira, Roberto
    Terhal, Barbara Maria
    Details
  • Wehner, Stephanie
    Schaffner, Christian
    Terhal, Barbara Maria
    Details
  • The bounded-storage model in the presence of a quantum adversary
    IEEE transactions on information theory 54, 749-762 (2008)
    Koenig, Robert T.
    Terhal, Barbara Maria
    Details
  • Fault-tolerant quantum computation for local leakage faults
    Quantum information & computation : QIC 7, 139-156 (2007)
    Aliferis, Panos
    Terhal, Barbara Maria
    Details
  • Noise threshold for a fault-tolerant two-dimensional lattice architecture
    Quantum information & computation : QIC 7, 297-318 (2007)
    Svore, Krysta M.
    DiVincenzo, David P.
    Terhal, Barbara Maria
    Details
  • Quantum bit commitment with misaligned reference frames
    Physical review / A, Atomic, molecular, and optical physics 73, 032311 (2006)
    Harrow, Aram
    Oliveira, Roberto
    Terhal, Barbara Maria
    Details
  • Svore, Krysta M.
    Terhal, Barbara Maria
    DiVincenzo, David P.
    Details
  • Fermionic linear optics revisited
    Foundations of physics 35, 1967-1984 (2005)
    DiVincenzo, David P.
    Terhal, Barbara Maria
    Details