The Entropic Spacetime Field

The Entropic Spacetime Field (ESF) proposes that spacetime behaves as a thermodynamic medium that responds dynamically to entropy gradients.

In this framework, small baryonic interactions generate persistent entropy distortions within spacetime. These distortions diffuse, interact and self-amplify over cosmological timescales, producing emergent geometric structures.

The resulting dynamics resemble a curvature-coupled reaction–diffusion system, capable of generating filamentary networks, nodes and voids consistent with the observed cosmic web.

Within ESF, several cosmological phenomena traditionally attributed to dark matter and dark energy may instead arise as emergent geometric effects of the evolving entropy field.

In particular, the framework explores:

• ripplefield-driven formation of the cosmic web
• persistent curvature distortions influencing galaxy rotation curves
• late-time cosmic acceleration as incomplete relaxation of entropy structure
• black holes interpreted as thermodynamic phase transitions in spacetime

The ESF model is currently exploratory and aims to provide a testable thermodynamic perspective on large-scale cosmic structure formation.

Talks and Presentations

More details to follow.

In Development

The Entropic Spacetime Field book