Fundamentals of universality in one-way quantum computation

doi:10.1088/1367-2630/9/6/204

New Journal of Physics

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New Journal of Physics Volume 9 June 2007 Create an alert RSS this journal

M Van den Nest et al 2007 New J. Phys. 9 204 doi:10.1088/1367-2630/9/6/204

Fundamentals of universality in one-way quantum computation

Focus on Measurement-Based Quantum Information Processing

M Van den Nest¹, W Dür^1,2, A Miyake^1,2 and H J Briegel^1,2

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Abstract References Cited By

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[4]: Connections of geometric measure of entanglement of pure symmetric states to quantum state estimation
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[5]: Quantum computational universality of the Cai-Miyake-Dür-Briegel two-dimensional quantum state from Affleck-Kennedy-Lieb-Tasaki quasichains
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[6]: Strategies for measurement-based quantum computation with cluster states transformed by stochastic local operations and classical communication
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[7]: Tensor network methods with graph enhancement
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[8]: Generating topological order from a two-dimensional cluster state using a duality mapping
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[9]: Geometric entanglement and Affleck-Ludwig boundary entropies in critical XXZ and Ising chains
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[10]: Quantum State Reduction for Universal Measurement Based Computation
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[11]: Universal resources for approximate and stochastic measurement-based quantum computation
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[12]: Additivity and non-additivity of multipartite entanglement measures
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[13]: The maximally entangled symmetric state in terms of the geometric measure
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[14]: Concatenated tensor network states
R Hübener et al New Journal of Physics 2010 12 025004
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[15]: Bipartite entanglement in continuous variable cluster states
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[16]: Classical spin systems and the quantum stabilizer formalism: General mappings and applications
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[19]: Quantum Computation in Correlation Space and Extremal Entanglement
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[20]: Identifying Phases of Quantum Many-Body Systems That Are Universal for Quantum Computation
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[21]: Quantum computing with continuous-variable clusters
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[22]: Are Random Pure States Useful for Quantum Computation?
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[23]: Most Quantum States Are Too Entangled To Be Useful As Computational Resources
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[24]: Scalable, High-Speed Measurement-Based Quantum Computer Using Trapped Ions
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[28]: Cluster State Entanglement of Semiconductor Quantum Dots Based on Faraday Rotation
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[29]: Measurement-based quantum computation
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[30]: Characterizing measurement-based quantum gates in quantum many-body systems using correlation functionsThis paper was presented at the Theory CANADA 4 conference, held at Centre de recherches mathématiques, Montréal, Québec, Canada on 4–7 June 2008.
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[31]: A short review on entanglement in quantum spin systems
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[32]: Completeness of classical spin models and universal quantum computation
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[34]: Quantum coherence and entanglement with ultracold atoms in optical lattices
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New Journal of Physics

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Fundamentals of universality in one-way quantum computation

Quantum Computation by Local Measurement

Measurement-based quantum computation in a two-dimensional phase of matter

Entanglement and discord of the superposition of Greenberger-Horne-Zeilinger states

Connections of geometric measure of entanglement of pure symmetric states to quantum state estimation

Quantum computational universality of the Cai-Miyake-Dür-Briegel two-dimensional quantum state from Affleck-Kennedy-Lieb-Tasaki quasichains

Strategies for measurement-based quantum computation with cluster states transformed by stochastic local operations and classical communication

Tensor network methods with graph enhancement

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Geometric entanglement and Affleck-Ludwig boundary entropies in critical XXZ and Ising chains

Quantum State Reduction for Universal Measurement Based Computation

Universal resources for approximate and stochastic measurement-based quantum computation

Additivity and non-additivity of multipartite entanglement measures

The maximally entangled symmetric state in terms of the geometric measure

Concatenated tensor network states

Bipartite entanglement in continuous variable cluster states

Classical spin systems and the quantum stabilizer formalism: General mappings and applications

Phase transitions and localizable entanglement in cluster-state spin chains with Ising couplings and local fields

Quantum Teamwork for Unconditional Multiparty Communication with Gaussian States

Quantum Computation in Correlation Space and Extremal Entanglement

Identifying Phases of Quantum Many-Body Systems That Are Universal for Quantum Computation

Quantum computing with continuous-variable clusters

Are Random Pure States Useful for Quantum Computation?

Most Quantum States Are Too Entangled To Be Useful As Computational Resources

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A short review on entanglement in quantum spin systems

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Completeness of the Classical 2D Ising Model and Universal Quantum Computation

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The resource theory of quantum reference frames: manipulations and monotones

Phase transition of computational power in the resource states for one-way quantum computation

Measurement-based quantum computation beyond the one-way model

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