Litcius/Paper detail

Quantum Aspects of Stimulated Hawking Radiation in an Optical Analog White-Black Hole Pair

Ivan Agullo, Anthony J. Brady, Dimitrios Kranas

2022Physical Review Letters21 citationsDOIOpen Access PDF

Abstract

This Letter introduces a synergistic combination of analytical and numerical methods to study the Hawking effect in optical systems containing the analog of a white-black hole pair. Our analytical treatment, based on techniques from Gaussian quantum information, provides a simple and efficient model to describe all aspects of the out-state, including the entanglement between any bipartition. We complement the study with a numerical analysis and apply our tools to investigate the influence that ambient thermal noise and detector inefficiencies have on the out-state. We find that aspects of the Hawking effect that are of quantum origin, i.e., quantum entanglement, are extremely fragile to the influence of inefficiencies and noise. We propose a protocol to amplify and observe these quantum aspects, based on seeding the process with a single-mode squeezed input, opening the door to new possibilities for experimental verification of the Hawking effect.

Topics & Concepts

PhysicsHawking radiationQuantum entanglementQuantum mechanicsQuantumNoise (video)HawkingComplement (music)Simple (philosophy)DetectorQuantum electrodynamicsQuantum opticsQuantum informationStatistical physicsQuantum information scienceOpen quantum systemQuantum sensorQuantum noiseGaussianQuantum technologyThermalBlack hole information paradoxQuantum imagingMicro black holeTheoretical physicsQuantum networkQuantum error correctionQuantum amplifierQuantum gravityQuantum Electrodynamics and Casimir EffectQuantum Information and CryptographyBlack Holes and Theoretical Physics