Time Asymptotics and Entanglement Generation of Clifford Quantum Celluar Automata

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OriginalspracheEnglisch
Seiten (von - bis)015203
Seitenumfang1
FachzeitschriftJ. Math. Phys.
Jahrgang51
PublikationsstatusVeröffentlicht - 2010

Abstract

We consider Clifford Quantum Cellular Automata (CQCAs) and their time evolution. CQCAs are an especially simple type of Quantum Cellular Automata, yet they show complex asymptotics and can even be a basic ingredient for universal quantum computation. In this work we study the time evolution of different classes of CQCAs. We distinguish between periodic CQCAs, fractal CQCAs and CQCAs with gliders. We then identify invariant states and study convergence properties of classes of states, like quasifree and stabilizer states. Finally we consider the generation of entanglement analytically and numerically for stabilizer and quasifree states.

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Time Asymptotics and Entanglement Generation of Clifford Quantum Celluar Automata. / Gütschow, Johannes; Uphoff, Sonja; Werner, Reinhard F. et al.
in: J. Math. Phys., Jahrgang 51, 2010, S. 015203.

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Gütschow J, Uphoff S, Werner RF, Zimborás Z. Time Asymptotics and Entanglement Generation of Clifford Quantum Celluar Automata. J. Math. Phys. 2010;51:015203. doi: 10.1063/1.3278513
Gütschow, Johannes ; Uphoff, Sonja ; Werner, Reinhard F. et al. / Time Asymptotics and Entanglement Generation of Clifford Quantum Celluar Automata. in: J. Math. Phys. 2010 ; Jahrgang 51. S. 015203.
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author = "Johannes G{\"u}tschow and Sonja Uphoff and Werner, {Reinhard F.} and Zolt{\'a}n Zimbor{\'a}s",
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T1 - Time Asymptotics and Entanglement Generation of Clifford Quantum Celluar Automata

AU - Gütschow, Johannes

AU - Uphoff, Sonja

AU - Werner, Reinhard F.

AU - Zimborás, Zoltán

N1 - Funding information: rhi.s work was financially suppotlcd by the Russian Foundation lbr Basic Research ~Pro.ieci No. 97-f}3-3347%).

PY - 2010

Y1 - 2010

N2 - We consider Clifford Quantum Cellular Automata (CQCAs) and their time evolution. CQCAs are an especially simple type of Quantum Cellular Automata, yet they show complex asymptotics and can even be a basic ingredient for universal quantum computation. In this work we study the time evolution of different classes of CQCAs. We distinguish between periodic CQCAs, fractal CQCAs and CQCAs with gliders. We then identify invariant states and study convergence properties of classes of states, like quasifree and stabilizer states. Finally we consider the generation of entanglement analytically and numerically for stabilizer and quasifree states.

AB - We consider Clifford Quantum Cellular Automata (CQCAs) and their time evolution. CQCAs are an especially simple type of Quantum Cellular Automata, yet they show complex asymptotics and can even be a basic ingredient for universal quantum computation. In this work we study the time evolution of different classes of CQCAs. We distinguish between periodic CQCAs, fractal CQCAs and CQCAs with gliders. We then identify invariant states and study convergence properties of classes of states, like quasifree and stabilizer states. Finally we consider the generation of entanglement analytically and numerically for stabilizer and quasifree states.

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DO - 10.1063/1.3278513

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VL - 51

SP - 015203

JO - J. Math. Phys.

JF - J. Math. Phys.

SN - 1089-7658

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