Entanglement Purification for Quantum Computation
- 13 February 2003
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 90 (6), 067901
- https://doi.org/10.1103/physrevlett.90.067901
Abstract
We show that thresholds for fault-tolerant quantum computation are solely determined by the quality of single-system operations if one allows for -dimensional systems with . Each system serves to store one logical qubit and additional auxiliary dimensions are used to create and purify entanglement between systems. Physical, possibly probabilistic two-system operations with error rates up to are still tolerable to realize deterministic high-quality two-qubit gates on the logical qubits. The achievable error rate is of the same order of magnitude as of the single-system operations. We investigate possible implementations of our scheme for several physical setups.
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This publication has 25 references indexed in Scilit:
- Private Entanglement over Arbitrary Distances, Even Using Noisy ApparatusPhysical Review Letters, 2002
- Virtual Quantum SubsystemsPhysical Review Letters, 2001
- Lower bounds for attainable fidelities in entanglement purificationPhysical Review A, 1999
- Quantum repeaters based on entanglement purificationPhysical Review A, 1999
- Quantum Repeaters: The Role of Imperfect Local Operations in Quantum CommunicationPhysical Review Letters, 1998
- Resilient Quantum ComputationScience, 1998
- Quantum computations: algorithms and error correctionRussian Mathematical Surveys, 1997
- Quantum Mechanics Helps in Searching for a Needle in a HaystackPhysical Review Letters, 1997
- Active Stabilization, Quantum Computation, and Quantum State SynthesisPhysical Review Letters, 1997
- Purification of Noisy Entanglement and Faithful Teleportation via Noisy ChannelsPhysical Review Letters, 1996