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Cosmology with a successful Vainshtein screening in theories beyond Horndeski

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abstract

We propose a dark energy model where a scalar field $\phi$ has nonlinear self-interactions in the presence of a dilatonic coupling with the Ricci scalar. This belongs to a sub-class of theories beyond Horndeski, which accommodates covariant Galileons and Brans-Dicke theories as specific cases. We derive conditions under which the scalar sound speed squared $c_{\rm s}^2$ is positive from the radiation era to today. Since $c_{\rm s}^2$ remains to be smaller than the order of 1, the deviation from Horndeski theories does not cause heavy oscillations of gauge-invariant gravitational potentials. In this case, the evolution of matter perturbations at low redshifts is similar to that in the coupled dark energy scenario with an enhanced gravitational interaction. On the spherically symmetric background with a matter source, the existence of field self-interactions suppresses the propagation of fifth force inside a Vainshtein radius. We estimate an allowed parameter space in which the model can be compatible with solar system constraints while satisfying conditions for the cosmological viability of background and perturbations.

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hep-th 1

years

2026 1

verdicts

UNVERDICTED 1

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Radial Solutions of Multi-Field de Sitter Galileons

hep-th · 2026-06-29 · unverdicted · novelty 6.0

Derives conditions for viable screened radial solutions in multi-field de Sitter Galileons, showing curvature can mitigate superluminality at the cost of a finite validity range set by the strong-coupling point.

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  • Radial Solutions of Multi-Field de Sitter Galileons hep-th · 2026-06-29 · unverdicted · none · ref 32 · internal anchor

    Derives conditions for viable screened radial solutions in multi-field de Sitter Galileons, showing curvature can mitigate superluminality at the cost of a finite validity range set by the strong-coupling point.