Novel Schemes for Measurement-Based Quantum Computation
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- 31 May 2007
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 98 (22) , 220503
- https://doi.org/10.1103/physrevlett.98.220503
Abstract
We establish a framework which allows one to construct novel schemes for measurement-based quantum computation. The technique develops tools from many-body physics—based on finitely correlated or projected entangled pair states—to go beyond the cluster-state based one-way computer. We identify resource states radically different from the cluster state, in that they exhibit nonvanishing correlations, can be prepared using nonmaximally entangling gates, or have very different local entanglement properties. In the computational models, randomness is compensated in a different manner. It is shown that there exist resource states which are locally arbitrarily close to a pure state. We comment on the possibility of tailoring computational models to specific physical systems.Keywords
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This publication has 28 references indexed in Scilit:
- Classical simulation versus universality in measurement-based quantum computationPhysical Review A, 2007
- Classical simulation of quantum many-body systems with a tree tensor networkPhysical Review A, 2006
- Natural three-qubit interactions in one-way quantum computingPhysical Review A, 2006
- Valence-bond states for quantum computationPhysical Review A, 2004
- Multiparty entanglement in graph statesPhysical Review A, 2004
- Efficient Classical Simulation of Slightly Entangled Quantum ComputationsPhysical Review Letters, 2003
- Measurement-based quantum computation on cluster statesPhysical Review A, 2003
- Quantum error-correcting codes associated with graphsPhysical Review A, 2001
- A One-Way Quantum ComputerPhysical Review Letters, 2001
- Persistent Entanglement in Arrays of Interacting ParticlesPhysical Review Letters, 2001