Litcius/Paper detail

Quantumness near a Schwarzschild black hole

Saeed Haddadi, M. A. Yurischev, M. Y. Abd‐Rabbou, Majid Azizi, Mohammad Reza Pourkarimi, Mehrdad Ghominejad

2024The European Physical Journal C18 citationsDOIOpen Access PDF

Abstract

Abstract The merging of quantum information science with the relativity theory presents novel opportunities for understanding the enigmas surrounding the transmission of information in relation to black holes. For this purpose, we study the quantumness near a Schwarzschild black hole in a practical model under decoherence. The scenario we consider in this paper is that a stationary particle in the flat region interacts with its surroundings while another particle experiences free fall in the vicinity of a Schwarzschild black hole’s event horizon. We explore the impacts of Hawking radiation and decoherence on the system under investigation and find that these effects can limit the survival of quantum characteristics, but cannot destroy them completely. Hence, the results of this study possess the potential to yield valuable insights into the comprehension of the quantum properties of a real system operating within a curved space-time framework.

Topics & Concepts

Hawking radiationEvent horizonPhysicsFuzzballBlack hole (networking)Schwarzschild radiusQuantum decoherenceBlack hole information paradoxMicro black holeTheoretical physicsClassical mechanicsQuantum mechanicsHorizonQuantumSpacetimeCharged black holeComputer scienceAstronomyComputer securityNetwork packetLink-state routing protocolRouting protocolQuantum Electrodynamics and Casimir EffectQuantum Mechanics and ApplicationsBiofield Effects and Biophysics