Manipulation of Majorana states in X-junction geometries

D. N. Aristov; D. B. Gutman

doi:10.1088/1751-8113/49/31/315301

Manipulation of Majorana states in X-junction geometries

D. N. Aristov, D. B. Gutman

Department of Physics

Bar-Ilan University

Research output: Contribution to journal › Article › peer-review

Abstract

We study quantum manipulation based on four Majorana bound states in X-junction geometry. The parameter space of this setup is bigger than of the previously studied Y-junction and is described by SO(4) symmetry group. In order for quantum computation to be dephasing free, two Majorana states have to stay degenerate at all times. We find a condition necessary for that and compute the Berry's phase, , accumulated during the manipulation. We construct simple protocols for the variety of values of α, including needed for the purposes of quantum computation. Although the manipulations in general X-junction geometry are not topologically protected, they may prove to be a feasible compromise for aims of quantum computation.

Original language	English
Article number	315301
Journal	Journal of Physics A: Mathematical and Theoretical
Volume	49
Issue number	31
DOIs	https://doi.org/10.1088/1751-8113/49/31/315301
State	Published - 28 Jun 2016

Keywords

Berry phase
Majorana states
X junction
dephasing
quantum computing
topological protection

All Science Journal Classification (ASJC) codes

Statistical and Nonlinear Physics
General Physics and Astronomy
Statistics and Probability
Mathematical Physics
Modelling and Simulation

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abstract = "We study quantum manipulation based on four Majorana bound states in X-junction geometry. The parameter space of this setup is bigger than of the previously studied Y-junction and is described by SO(4) symmetry group. In order for quantum computation to be dephasing free, two Majorana states have to stay degenerate at all times. We find a condition necessary for that and compute the Berry's phase, , accumulated during the manipulation. We construct simple protocols for the variety of values of α, including needed for the purposes of quantum computation. Although the manipulations in general X-junction geometry are not topologically protected, they may prove to be a feasible compromise for aims of quantum computation.",

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AU - Gutman, D. B.

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N2 - We study quantum manipulation based on four Majorana bound states in X-junction geometry. The parameter space of this setup is bigger than of the previously studied Y-junction and is described by SO(4) symmetry group. In order for quantum computation to be dephasing free, two Majorana states have to stay degenerate at all times. We find a condition necessary for that and compute the Berry's phase, , accumulated during the manipulation. We construct simple protocols for the variety of values of α, including needed for the purposes of quantum computation. Although the manipulations in general X-junction geometry are not topologically protected, they may prove to be a feasible compromise for aims of quantum computation.

AB - We study quantum manipulation based on four Majorana bound states in X-junction geometry. The parameter space of this setup is bigger than of the previously studied Y-junction and is described by SO(4) symmetry group. In order for quantum computation to be dephasing free, two Majorana states have to stay degenerate at all times. We find a condition necessary for that and compute the Berry's phase, , accumulated during the manipulation. We construct simple protocols for the variety of values of α, including needed for the purposes of quantum computation. Although the manipulations in general X-junction geometry are not topologically protected, they may prove to be a feasible compromise for aims of quantum computation.

KW - Berry phase

KW - Majorana states

KW - X junction

KW - dephasing

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KW - topological protection

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M3 - مقالة

SN - 1751-8113

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JO - Journal of Physics A: Mathematical and Theoretical

JF - Journal of Physics A: Mathematical and Theoretical

IS - 31

M1 - 315301

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Manipulation of Majorana states in X-junction geometries

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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