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Main Authors: Lee, Tae-Hun, Korbicz, Jarosław K.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2401.07690
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author Lee, Tae-Hun
Korbicz, Jarosław K.
author_facet Lee, Tae-Hun
Korbicz, Jarosław K.
contents We investigate quantum objectivity in the boson-spin model, where a central harmonic oscillator interacts with a thermal bath of spin-1/2 systems. We analyze how information about a continuous position variable can be encoded into discrete, finite-dimensional environments. More precisely, we study conditions under which the so-called Spectrum Broadcast Structures (SBS) can be formed in the model. These are multipartite quantum state structures, representing a mode-refined form of decoherence. Working in the recoil-less limit, we use the Floquet theory to show that despite its apparent simplicity, the model has a rich structure with different regimes, depending on the motion of the central system. In one of them, the faithful encoding of the position and hence objectivity are impossible irrespectively of the resources used. In other, large enough collections of spins will faithfully encode the position information. We derive the characteristic length scales, corresponding to decoherence and precision of the encoding.
format Preprint
id arxiv_https___arxiv_org_abs_2401_07690
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Encoding position by spins: Objectivity in the boson-spin model
Lee, Tae-Hun
Korbicz, Jarosław K.
Quantum Physics
We investigate quantum objectivity in the boson-spin model, where a central harmonic oscillator interacts with a thermal bath of spin-1/2 systems. We analyze how information about a continuous position variable can be encoded into discrete, finite-dimensional environments. More precisely, we study conditions under which the so-called Spectrum Broadcast Structures (SBS) can be formed in the model. These are multipartite quantum state structures, representing a mode-refined form of decoherence. Working in the recoil-less limit, we use the Floquet theory to show that despite its apparent simplicity, the model has a rich structure with different regimes, depending on the motion of the central system. In one of them, the faithful encoding of the position and hence objectivity are impossible irrespectively of the resources used. In other, large enough collections of spins will faithfully encode the position information. We derive the characteristic length scales, corresponding to decoherence and precision of the encoding.
title Encoding position by spins: Objectivity in the boson-spin model
topic Quantum Physics
url https://arxiv.org/abs/2401.07690