Giulia Ventagli scite author profile

Spontaneous scalarization is a mechanism that endows relativistic stars and black holes with a nontrivial configuration only when their spacetime curvature exceeds some threshold. The standard way to trigger spontaneous scalarization is via a tachyonic instability at the linear level, which is eventually quenched due to the effect of nonlinear terms. In this paper, we identify all of the terms in the Horndeski action that contribute to the (effective) mass term in the linearized equations and, hence, can cause or contribute to the tachyonic instability that triggers scalarization.

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Onset of spontaneous scalarization in generalized scalar-tensor theories

Ventagli

Lehébel

Sotiriou

2020

Phys. Rev. D

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In gravity theories that exhibit spontaneous scalarization, astrophysical objects are identical to their general relativistic counterpart until they reach a certain threshold in compactness or curvature. Beyond this threshold, they acquire a non-trivial scalar configuration, which also affects their structure. The onset of scalarization is controlled only by terms that contribute to linear perturbation around solutions of general relativity. The complete set of these terms has been identified for generalized scalar-tensor theories. Stepping on this result, we study the onset on scalarization in generalized scalar-tensor theories and determine the relevant thresholds in terms of the contributing coupling constants and the properties of the compact object.

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Black hole scalarization with Gauss-Bonnet and Ricci scalar couplings

et al. 2021

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Spontaneous scalarization is a gravitational phenomenon in which deviations from general relativity arise once a certain threshold in curvature is exceeded, while being entirely absent below that threshold. For black holes, scalarization is known to be triggered by a coupling between a scalar and the Gauss-Bonnet invariant. A coupling with the Ricci scalar, which can trigger scalarization in neutron stars, is instead known to not contribute to the onset of black hole scalarization, and has so far been largely ignored in the literature when studying scalarized black holes. In this paper, we study the combined effect of both these couplings on black hole scalarization. We show that the Ricci coupling plays a significant role in the properties of scalarized solutions and their domain of existence. This work is an important step in the construction of scalarization models that evade binary pulsar constraints and have general relativity as a cosmological late-time attractor, while still predicting deviations from general relativity in black hole observations.

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Erratum: Spontaneous scalarization in generalized scalar-tensor theory [Phys. Rev. D 99 , 124022 (2019)]

Andreou¹,

Franchini²,

Ventagli³

et al. 2020

Phys. Rev. D

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Neutron star scalarization with Gauss-Bonnet and Ricci scalar couplings

et al. 2021

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Spontaneous scalarization of neutron stars has been extensively studied in the Damour and Esposito-Farèse model, in which a scalar field couples to the Ricci scalar or, equivalently, to the trace of the energy-momentum tensor. However, scalarization of both black holes and neutron stars may also be triggered by a coupling of the scalar field to the Gauss-Bonnet invariant. The case of the Gauss-Bonnet coupling has also received a lot of attention lately, but the synergy of the Ricci and Gauss-Bonnet couplings has been overlooked for neutron stars. Here, we show that combining both couplings has interesting effects on the properties of scalarized neutron stars, such as affecting their domain of existence or the amount of scalar charge they carry.

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Giulia Ventagli

Spontaneous scalarization in generalized scalar-tensor theory

Onset of spontaneous scalarization in generalized scalar-tensor theories

Black hole scalarization with Gauss-Bonnet and Ricci scalar couplings

Erratum: Spontaneous scalarization in generalized scalar-tensor theory [Phys. Rev. D 99 , 124022 (2019)]

Neutron star scalarization with Gauss-Bonnet and Ricci scalar couplings

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