# Large Gauge Symmetries of an Asymptotically de Sitter Horizon: An   Extended First Law of Thermodynamics

**Authors:** Fatemeh Mahdieh, Hossein Shojaie

arXiv: 1812.10459 · 2019-04-04

## TL;DR

This paper reveals an infinite-dimensional symmetry group at the horizon of a universe approaching de Sitter space, extending the thermodynamic first law to include new conjugate variables and non-equilibrium effects.

## Contribution

It introduces an extended first law of thermodynamics for asymptotically de Sitter horizons, incorporating new conjugate pairs and non-conservative charge behavior.

## Key findings

- Identification of an infinite-dimensional symmetry group at the horizon.
- Extension of the first law to include new conjugate variables like (, ).
- Demonstration of non-equilibrium behavior in asymptotic charges.

## Abstract

In this paper, we show that a universe with a dynamical cosmological constant approaching pure de Sitter at timelike infinity, enjoys an infinite dimensional symmetry group at its horizon. This group is larger than the usual $SO(4,1)$ of pure de Sitter. The charges associated with the asymptotic symmetry generators are non-integrable, and we demonstrate that they promote an extended version of the first law of thermodynamics. This contains four pairs of conjugate variables. The pair $(\Theta,\Lambda)$ corresponding to the change in the cosmological constant and its conjugate volume $\Theta$. The contribution of the surface tension of the horizon and its conjugate parameter surface area make a pair $(\sigma, A)$. The usual conjugate variables $ (T, S) $, $ (\Omega, J) $ and a term $ \partial_v \delta S $ corresponding to entropy production, are included. In addition, this extended first law describes the non-conservative behaviour of the asymptotic charges in non-equilibrium.

## Full text

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## References

57 references — full list in the complete paper: https://tomesphere.com/paper/1812.10459/full.md

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Source: https://tomesphere.com/paper/1812.10459