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Quantum Thermodynamics

Semiclassical spacetimes at super-Planckian scales from delocalized sources

arXiv
Authors: Ali Akil, Mariano Cadoni, Leonardo Modesto, Mauro Oi, Andrea Pierfrancesco Sanna

Year

2022

Paper ID

57723

Status

Preprint

Abstract Read

~2 min

Abstract Words

219

Citations

N/A

Abstract

We derive the gravitational field and the spacetime metric generated by sources in quantum superposition of different locations. We start by working in a Newtonian approximation, in which the effective gravitational potential is computed as the expectation value of the gravitational potential operator in a Gaussian distribution of width R for the position of the source. The effective gravitational potential is then covariantly uplifted to a fully relativistic metric in general relativity, describing the spacetime generated by averaging over the state of such sources. These results are then rederived and extended by adopting an independent construction in terms of quantum reference frames. We find three classes of quantum effective metrics which are all asymptotically flat and reproduce the Schwarzschild metric at great distances. The solutions differ, however, in the inner core. The quantum uncertainty Δrsim R in the position of the source prevents the radius of the transverse two-sphere to shrink to zero. Depending on the strength of the quantum superposition effects, we have either a nonsingular black hole with a "quantum hair" and an event horizon, a one-way wormhole with a critical null throat or a traversable wormhole. We also provide a detailed study of the geometric and thermodynamic properties of the spacetime structure for each of these three families of models, as well as their phenomenology.

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  • This paper contributes to the Quantum Thermodynamics research area in the Quantum Articles archive.
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  • We derive the gravitational field and the spacetime metric generated by sources in quantum superposition of different locations.

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