Spin Entangled State Transfer in Quantum Dot Arrays: Coherent Adiabatic and Speed-Up Protocols

Yue Ban; Xi Chen; Sigmund Kohler; Gloria Platero

doi:10.1002/qute.201900048

Spin Entangled State Transfer in Quantum Dot Arrays: Coherent Adiabatic and Speed-Up Protocols

Yue Ban
, Xi Chen
, Sigmund Kohler
, Gloria Platero^*

^*Corresponding author for this work

CSIC - Instituto de Ciencia de Materiales de Madrid (ICMM)
Shanghai University

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

21 Citations (Scopus)

Abstract

Long-distance transfer of quantum states is an indispensable part of large-scale quantum information processing. A novel scheme for the transfer of two-electron entangled states from one edge of a quantum dot array to the other by coherent adiabatic passage is proposed. This protocol is mediated by pulsed tunneling barriers. In a second step, a speed up is sought for by shortcut to adiabaticity techniques. This significantly reduces the operation time and, thus, minimizes the impact of decoherence. For typical parameters of state-of-the-art solid state devices, the accelerated protocol has an operation time in the nanosecond range and terminates before a major coherence loss sets in. The scheme represents a promising candidate for entanglement transfer in solid state quantum information processing.

Original language	English
Article number	1900048
Journal	Advanced Quantum Technologies
Volume	2
Issue number	10
DOIs	https://doi.org/10.1002/qute.201900048
Publication status	Published - 1 Oct 2019
Externally published	Yes

Keywords

coherent transfer by adiabatic passage
entangled state transfer
quantum dots
shortcuts to adiabaticity

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10.1002/qute.201900048

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abstract = "Long-distance transfer of quantum states is an indispensable part of large-scale quantum information processing. A novel scheme for the transfer of two-electron entangled states from one edge of a quantum dot array to the other by coherent adiabatic passage is proposed. This protocol is mediated by pulsed tunneling barriers. In a second step, a speed up is sought for by shortcut to adiabaticity techniques. This significantly reduces the operation time and, thus, minimizes the impact of decoherence. For typical parameters of state-of-the-art solid state devices, the accelerated protocol has an operation time in the nanosecond range and terminates before a major coherence loss sets in. The scheme represents a promising candidate for entanglement transfer in solid state quantum information processing.",

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T2 - Coherent Adiabatic and Speed-Up Protocols

AU - Ban, Yue

AU - Chen, Xi

AU - Kohler, Sigmund

AU - Platero, Gloria

PY - 2019/10/1

Y1 - 2019/10/1

N2 - Long-distance transfer of quantum states is an indispensable part of large-scale quantum information processing. A novel scheme for the transfer of two-electron entangled states from one edge of a quantum dot array to the other by coherent adiabatic passage is proposed. This protocol is mediated by pulsed tunneling barriers. In a second step, a speed up is sought for by shortcut to adiabaticity techniques. This significantly reduces the operation time and, thus, minimizes the impact of decoherence. For typical parameters of state-of-the-art solid state devices, the accelerated protocol has an operation time in the nanosecond range and terminates before a major coherence loss sets in. The scheme represents a promising candidate for entanglement transfer in solid state quantum information processing.

AB - Long-distance transfer of quantum states is an indispensable part of large-scale quantum information processing. A novel scheme for the transfer of two-electron entangled states from one edge of a quantum dot array to the other by coherent adiabatic passage is proposed. This protocol is mediated by pulsed tunneling barriers. In a second step, a speed up is sought for by shortcut to adiabaticity techniques. This significantly reduces the operation time and, thus, minimizes the impact of decoherence. For typical parameters of state-of-the-art solid state devices, the accelerated protocol has an operation time in the nanosecond range and terminates before a major coherence loss sets in. The scheme represents a promising candidate for entanglement transfer in solid state quantum information processing.

KW - coherent transfer by adiabatic passage

KW - entangled state transfer

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KW - shortcuts to adiabaticity

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ER -

Spin Entangled State Transfer in Quantum Dot Arrays: Coherent Adiabatic and Speed-Up Protocols

Abstract

Keywords

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