Membrane paradigm realized?

TL;DR

This paper explores whether real degrees of freedom exist at black hole horizons, suggesting recent gravitational microstate results imply such degrees of freedom, potentially replacing the traditional membrane paradigm with explicit physical states.

Contribution

It proposes that gravitational microstates provide real degrees of freedom outside the horizon, offering a new perspective on the membrane paradigm and black hole information.

Findings

Microstate solutions are concentrated just outside the horizon.

The black hole state is a superposition of oscillating microstates.

These microstates may realize the membrane paradigm physically.

Abstract

Are there any degrees of freedom on the black hole horizon? Using the `membrane paradigm' we can reproduce coarse-grained physics outside the hole by assuming a fictitious membrane just outside the horizon. But to solve the information puzzle we need `real' degrees of freedom at the horizon, which can modify Hawking's evolution of quantum modes. We argue that recent results on gravitational microstates imply a set of real degrees of freedom just outside the horizon; the state of the hole is a linear combination of rapidly oscillating gravitational solutions with support concentrated just outside the horizon radius. The collective behavior of these microstate solutions may give a realization of the membrane paradigm, with the fictitious membrane now replaced by real, explicit degrees of freedom.