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Bibliographic Details
Main Authors: Avalos, C. F. P., de Oliveira, M. C.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.04241
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author Avalos, C. F. P.
de Oliveira, M. C.
author_facet Avalos, C. F. P.
de Oliveira, M. C.
contents Trapped ion systems present non-classical characteristics such as squeezed states that show a quantum advantage in quantum sensing, quantum information processing and quantum thermodynamics. We analyze the non-classical characteristics of a system described by a single ion trapped by a periodic potential field. Within the regime of non-adiabatic manipulation of the potential field, the dynamics of motion of the center of mass of the ion can be described by a dimensionless parameter called the non-adiabatic parameter $Q^{*}$. This parameter allows us to distinguish the classical and non-classical characteristics of the system. Using the equations of motion of observables in the Heisenberg picture, we propose an analysis of the unitary time evolution operator and discuss the squeezing behavior in the state of motion of the ion. The results shown can serve as a basis to discuss the presence of squeezing as a resource in quantum thermodynamics in the non-adiabatic regime in actual achievable experimental limitations.
format Preprint
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institution arXiv
publishDate 2024
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spellingShingle Non-Classicality and Non-adiabaticity in a Single Trapped Ion
Avalos, C. F. P.
de Oliveira, M. C.
Quantum Physics
Trapped ion systems present non-classical characteristics such as squeezed states that show a quantum advantage in quantum sensing, quantum information processing and quantum thermodynamics. We analyze the non-classical characteristics of a system described by a single ion trapped by a periodic potential field. Within the regime of non-adiabatic manipulation of the potential field, the dynamics of motion of the center of mass of the ion can be described by a dimensionless parameter called the non-adiabatic parameter $Q^{*}$. This parameter allows us to distinguish the classical and non-classical characteristics of the system. Using the equations of motion of observables in the Heisenberg picture, we propose an analysis of the unitary time evolution operator and discuss the squeezing behavior in the state of motion of the ion. The results shown can serve as a basis to discuss the presence of squeezing as a resource in quantum thermodynamics in the non-adiabatic regime in actual achievable experimental limitations.
title Non-Classicality and Non-adiabaticity in a Single Trapped Ion
topic Quantum Physics
url https://arxiv.org/abs/2411.04241