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October 17, 2025Open Access

Page Curve for an Evaporating Schwarzschild Black Hole in Dimensionally-Reduced Model of Dilaton Gravity

Puntos clave

Fine-grained entropy of the Hawking radiation follows the Page curve, indicating unitarity in black hole evaporation.
The model showcases both eternal and evaporating Schwarzschild black hole solutions under dilaton gravity.
Using the island rule via quantum extremal surfaces allowed for an in-depth analysis of entanglement entropy during evaporation.
This work contributes to our understanding of quantum gravity and black hole thermodynamics in lower dimensions.

Resumen

We study entanglement entropy of quantum fields in a (1+1)-dimensional model of dilaton gravity derived from the four-dimensional Einstein-Hilbert action by dimensional reduction. Scalar matter is coupled to gravity, while the back-reaction is included via the Polyakov-Liouville action. This theory exhibits both eternal and evaporating Schwarzschild black hole solutions. The fine-grained entropy in a collapse scenario is investigated by applying the "island rule" via the quantum extremal surface approach. We demonstrate that the fine-grained entropy of the Hawking radiation follows the Page curve, and therefore the evolution of the Hawking radiation is unitary.

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