# The physical origin of the cosmological constant: continuum limit and   the analogy with the Casimir effect

**Authors:** Stefano Viaggiu

arXiv: 1908.06023 · 2019-08-23

## TL;DR

This paper explores the physical origin of the cosmological constant by analyzing a continuum radiation field in a cosmological background, drawing an analogy with the Casimir effect, and identifying a decoherence scale that fixes its observed value.

## Contribution

It generalizes previous models by considering a continuum approximation and establishes a physical scale where the cosmological constant is fixed, linking it to the Casimir effect analogy.

## Key findings

- Decoherence scale estimated at ~10^{-5} meters.
- The cosmological constant is fixed at this scale.
- Analogy with the Casimir effect helps determine parameters.

## Abstract

In this paper we continue the investigations in \cite{1} concerning the origin of the cosmological constant. First of all, we generalise the results in \cite{1,2} by considering a continuum approximation for a radiation field in a cosmological background. In this way, we clearly show that the bare cosmological constant is obtained with wanishing temperature $T$ and that the specific heat $C$ is zero at the decoherence scale $L_D$. Moreover, we address the issue to fix the parameters present in our model. In particular, we push forward the analogy between our expression for ${\Lambda}_L$ at a given proper scale $L$ and the one extrapolated by the Casimir effect. As a consequence, we can fix the decoherence scale $L_D$ at which we have the crossover to classicality to be of the order of $\sim 10^{-5}$ meters. This implies that the actual observed value of the cosmological constant is fixed (frozen) at this new physical scale.

## Full text

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## References

29 references — full list in the complete paper: https://tomesphere.com/paper/1908.06023/full.md

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Source: https://tomesphere.com/paper/1908.06023