What does this research mean for the field?

The gravitational sector of the P2 dark energy action imposes a constraint on the coupling parameter xi, requiring |xi| < 4.2e-3 based on the Cassini bound. Novelty: ClaimNovelty.CONFIRMATORY. Consensus alignment: ConsensusAlignment.NEUTRAL.

What question did this study set out to answer?

This research aims to explore the constraints on dark energy in the gravitational sector of a scalar field model.

March 3, 2026Open Access

Gravitational Sector Constraints on Coherential Dark Energy

Q: What question did this study set out to answer?

This research aims to explore the constraints on dark energy in the gravitational sector of a scalar field model.

Key Points

This research aims to explore the constraints on dark energy in the gravitational sector of a scalar field model.
Analyzed the gravitational action of the P2 dark energy model with an exponential potential.
Conducted a PPN analysis to determine the coupling between the scalar field and curvature.
Performed tests on a neutron-star background to verify regularity under certain conditions.
Established the relationship |gamma-1| ~ 1.28*xi^2 based on the PPN analysis.
Found a Cassini bound constraint of |xi| < 4.2e-3.
Confirmed regularity of the model under specific neutron-star parameters up to a compactness of M/R = 0.369.

Abstract

We investigate the gravitational sector of the P2 dark energy action — a canonical scalar field C with exponential potential — motivated by universal quantum decoherence (Papers I, II). We test whether C can couple directly to curvature through a non-minimal term xi*C²*R. A PPN analysis yields |gamma-1| ~ 1. 28*xi², and the Cassini bound imposes |xi| < 4. 2e-3. Within canonical P2 no known screening mechanism relaxes this constraint. A strong-field test on a fixed neutron-star background confirms regularity within the Cassini window up to compactness M/R = 0. 369. We adopt minimal coupling (xi=0) as the default stance, falsifiable by future gravitational tests. Version 2. 0 aligns notation and conventions with the full RCD disformal series (Papers IV-XVII).

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Cite This Study

Arturo Cerezo (Sun,) studied this question.

synapsesocial.com/papers/69a67eebf353c071a6f0a877 https://doi.org/https://doi.org/10.5281/zenodo.18825650

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