Non-interferometric test of the continuous spontaneous localization model based on rotational optomechanics

The continuous spontaneous localization (CSL) model is the best known and studied among collapse models, which modify quantum mechanics and identify the fundamental reasons behind the unobservability of quantum superpositions at the macroscopic scale. Albeit several tests were performed during the l...

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Veröffentlicht in:	New J.Phys 2018-08, Vol.20 (8), p.83022
Hauptverfasser:	Carlesso, Matteo, Paternostro, Mauro, Ulbricht, Hendrik, Vinante, Andrea, Bassi, Angelo
Format:	Artikel
Sprache:	eng
Schlagworte:	Angular momentum collapse models General Physics gravitational wave detector Interferometry Localization Opto-mechanics optomechanics Physics Quantum mechanics
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creator	Carlesso, Matteo Paternostro, Mauro Ulbricht, Hendrik Vinante, Andrea Bassi, Angelo
description	The continuous spontaneous localization (CSL) model is the best known and studied among collapse models, which modify quantum mechanics and identify the fundamental reasons behind the unobservability of quantum superpositions at the macroscopic scale. Albeit several tests were performed during the last decade, up to date the CSL parameter space still exhibits a vast unexplored region. Here, we study and propose an unattempted non-interferometric test aimed to fill this gap. We show that the angular momentum diffusion predicted by CSL heavily constrains the parametric values of the model when applied to a macroscopic object.
doi_str_mv	10.1088/1367-2630/aad863
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subjects	Angular momentum collapse models General Physics gravitational wave detector Interferometry Localization Opto-mechanics optomechanics Physics Quantum mechanics
title	Non-interferometric test of the continuous spontaneous localization model based on rotational optomechanics
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