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Auteurs principaux: Ban, Yue, Chen, Xi
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2601.06988
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author Ban, Yue
Chen, Xi
author_facet Ban, Yue
Chen, Xi
contents The techniques of shortcuts to adiabaticity have been proposed to accelerate the "slow" adiabatic processes in various quantum systems with the applications in quantum information processing. In this paper, we study the counter-diabatic driving for fast adiabatic spin manipulation in a two-electron double quantum dot by designing time-dependent electric fields in the presence of spin-orbit coupling. To simplify implementation and find an alternative shortcut, we further transform the Hamiltonian in term of Lie algebra, which allows one to use a single Cartesian component of electric fields. In addition, the relation between energy and time is quantified to show the lower bound for the operation time when the maximum amplitude of electric fields is given. Finally, the fidelity is discussed with respect to noise and systematic errors, which demonstrates that the decoherence effect induced by stochastic environment can be avoided in speeded-up adiabatic control.
format Preprint
id arxiv_https___arxiv_org_abs_2601_06988
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Counter-diabatic driving for fast spin control in a two-electron double quantum dot
Ban, Yue
Chen, Xi
Quantum Physics
The techniques of shortcuts to adiabaticity have been proposed to accelerate the "slow" adiabatic processes in various quantum systems with the applications in quantum information processing. In this paper, we study the counter-diabatic driving for fast adiabatic spin manipulation in a two-electron double quantum dot by designing time-dependent electric fields in the presence of spin-orbit coupling. To simplify implementation and find an alternative shortcut, we further transform the Hamiltonian in term of Lie algebra, which allows one to use a single Cartesian component of electric fields. In addition, the relation between energy and time is quantified to show the lower bound for the operation time when the maximum amplitude of electric fields is given. Finally, the fidelity is discussed with respect to noise and systematic errors, which demonstrates that the decoherence effect induced by stochastic environment can be avoided in speeded-up adiabatic control.
title Counter-diabatic driving for fast spin control in a two-electron double quantum dot
topic Quantum Physics
url https://arxiv.org/abs/2601.06988