Time evolution of the inside of the black hole's horizon

TL;DR

This paper explores the dynamic evolution of the interior and exterior regions of a black hole's horizon by analyzing the Wheeler-DeWitt equation and the entangled vacuum state, shedding light on quantum gravitational effects near the horizon.

Contribution

It introduces a novel approach to study black hole interior dynamics using the Wheeler-DeWitt equation and entanglement properties of the vacuum state.

Findings

Demonstrates the evolution of subsystems inside and outside the horizon

Highlights the role of entanglement in black hole quantum dynamics

Provides a framework for quantum gravitational analysis near horizons

Abstract

We consider the Wheeler-DeWitt equation near the horizon of the black hole where the entangled vacuum state is chosen as the static universe state. Then, using the entangled property of the vacuum state, we investigate the dynamical evolution of the subsystems, namely inside and outside of the horizon.