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Harvesting correlations in Schwarzschild and collapsing shell spacetimes

Erickson Tjoa, Robert B. Mann

2020Journal of High Energy Physics72 citationsDOIOpen Access PDF

Abstract

A bstract We study the harvesting of correlations by two Unruh-DeWitt static detectors from the vacuum state of a massless scalar field in a background Vaidya spacetime consisting of a collapsing null shell that forms a Schwarzschild black hole (hereafter Vaidya spacetime for brevity), and we compare the results with those associated with the three preferred vacua (Boulware, Unruh, Hartle-Hawking-Israel vacua) of the eternal Schwarzschild black hole spacetime. To do this we make use of the explicit Wightman functions for a massless scalar field available in (1+1)-dimensional models of the collapsing spacetime and Schwarzschild spacetimes, and the detectors couple to the proper time derivative of the field. First we find that, with respect to the harvesting protocol, the Unruh vacuum agrees very well with the Vaidya vacuum near the horizon even for finite-time interactions. Second, all four vacua have different capacities for creating correlations between the detectors, with the Vaidya vacuum interpolating between the Unruh vacuum near the horizon and the Boulware vacuum far from the horizon. Third, we show that the black hole horizon inhibits any correlations, not just entanglement. Finally, we show that the efficiency of the harvesting protocol depend strongly on the signalling ability of the detectors, which is highly non-trivial in presence of curvature. We provide an asymptotic analysis of the Vaidya vacuum to clarify the relationship between the Boulware/Unruh interpolation and the near/far from horizon and early/late-time limits. We demonstrate a straightforward implementation of numerical contour integration to perform all the calculations.

Topics & Concepts

PhysicsSchwarzschild radiusUnruh effectScalar fieldSpacetimeHorizonSchwarzschild metricQuantum field theory in curved spacetimeSchwarzschild geodesicsBlack hole (networking)Massless particleMathematical physicsDeriving the Schwarzschild solutionEvent horizonScalar (mathematics)Proper timeWhite holePenrose processCharged black holeTheoretical physicsPhoton sphereVacuum stateNull (SQL)Classical mechanicsField (mathematics)Quantum electrodynamicsKerr metricFalse vacuumMinkowski spaceApparent horizonQuantum Electrodynamics and Casimir EffectBlack Holes and Theoretical PhysicsAstrophysical Phenomena and Observations
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