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

IF 3 3区物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY

Annals of Physics Pub Date : 2026-05-01 Epub Date: 2026-01-17 DOI:10.1016/j.aop.2026.170352

Erfan Bayenat , Babak Vakili

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引用次数: 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

〈 n_{x} 〉 - 〈 n_{y} 〉

. 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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黑洞蒸发和信息流的双模模型

我们建立并分析了一个黑洞蒸发的双振子模型，在该模型中，有效的几何自由度和具有代表性的霍金辐射模式由自由哈密顿量中具有相反符号的耦合谐振子来描述。解析得到了正模态结构，相应的模态振幅决定了两扇区之间能量交换的模式。为了连接离散和半经典图像，我们引入平滑包络函数，它沿着几何变量提供连续有效的描述。截断Fock空间中的数值模拟表明，两个振子以近似非相的方式交换量子，符合< nx > - < ny >的有效守恒。约简熵Sx(t)呈现周期性增长，表明纠缠产生。这些结果表明，即使是最小的双模框架也可以捕获蒸发过程中能量传递和信息流的关键定性特征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Annals of Physics 物理-物理：综合

CiteScore

5.30

自引率

3.30%

发文量

211

审稿时长

47 days

期刊介绍： Annals of Physics presents original work in all areas of basic theoretic physics research. Ideas are developed and fully explored, and thorough treatment is given to first principles and ultimate applications. Annals of Physics emphasizes clarity and intelligibility in the articles it publishes, thus making them as accessible as possible. Readers familiar with recent developments in the field are provided with sufficient detail and background to follow the arguments and understand their significance. The Editors of the journal cover all fields of theoretical physics. Articles published in the journal are typically longer than 20 pages.