Related papers: A two-mode model for black hole evaporation and information flow

A two-mode model for black hole evaporation and information flow

URL: http://arxiv.org/abs/2601.19737v1
Date: Tue, 27 Jan 2026 15:57:59 GMT
Title: A two-mode model for black hole evaporation and information flow
Authors: Erfan Bayenat, Babak Vakili,
Abstract summary: We analyze a two-oscillator model for black hole evaporation in which an effective geometric degree of freedom and a representative Hawking radiation mode are described.<n>We show that even a minimal two-mode framework can capture key qualitative features of energy transfer and information flow during evaporation.
Score: 0.0
License: http://creativecommons.org/publicdomain/zero/1.0/
Abstract: We develop and analyze a two-oscillator model for black hole evaporation in which an effective geometric degree of freedom and a representative Hawking radiation mode are described by coupled harmonic oscillators with opposite signs in their free Hamiltonians. The normal-mode structure is obtained analytically and the corresponding modal amplitudes determine the pattern of energy exchange between the two sectors. To bridge the discrete and semiclassical pictures, we introduce smooth envelope functions that provide a continuous effective description along the geometric variable. Numerical simulations in a truncated Fock space show that the two oscillators exchange quanta in an approximately out-of-phase manner, consistent with an effective conservation of $\langle n_x\rangle - \langle n_y\rangle$. The reduced entropy $S_x(t)$ exhibits periodic growth, indicating entanglement generation. These results demonstrate that even a minimal two-mode framework can capture key qualitative features of energy transfer and information flow during evaporation.

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