Wave function collapse models postulate a fundamental breakdown of the quantum superposition principle at the macroscale. Therefore, experimental tests of collapse models are also fundamental tests of quantum mechanics. Here, we compute the upper bounds on the collapse parameters, which can be inferred by the gravitational wave detectors LIGO, LISA Pathfinder, and AURIGA. We consider the most widely used collapse model, the continuous spontaneous localization (CSL) model. We show that these experiments exclude a huge portion of the CSL parameter space, the strongest bound being set by the recently launched space mission LISA Pathfinder. We also rule out a proposal for quantum-gravity-induced decoherence.

Experimental bounds on collapse models from gravitational wave detectors / Carlesso, Matteo; Bassi, Angelo; Falferi, Paolo; Vinante, Andrea. - In: PHYSICAL REVIEW D. - ISSN 2470-0010. - 94:12(2016). [10.1103/PhysRevD.94.124036]

Experimental bounds on collapse models from gravitational wave detectors

Vinante, Andrea
Ultimo
2016-01-01

Abstract

Wave function collapse models postulate a fundamental breakdown of the quantum superposition principle at the macroscale. Therefore, experimental tests of collapse models are also fundamental tests of quantum mechanics. Here, we compute the upper bounds on the collapse parameters, which can be inferred by the gravitational wave detectors LIGO, LISA Pathfinder, and AURIGA. We consider the most widely used collapse model, the continuous spontaneous localization (CSL) model. We show that these experiments exclude a huge portion of the CSL parameter space, the strongest bound being set by the recently launched space mission LISA Pathfinder. We also rule out a proposal for quantum-gravity-induced decoherence.
2016
12
Carlesso, Matteo; Bassi, Angelo; Falferi, Paolo; Vinante, Andrea
Experimental bounds on collapse models from gravitational wave detectors / Carlesso, Matteo; Bassi, Angelo; Falferi, Paolo; Vinante, Andrea. - In: PHYSICAL REVIEW D. - ISSN 2470-0010. - 94:12(2016). [10.1103/PhysRevD.94.124036]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/343872
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