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Moment of inertia - mass universal relations for neutron stars in scalar-tensor theory with self-interacting massive scalar field

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abstract

We are investigating universal relations between different normalisations of the moment of inertia and the compactness of neutron stars in slow rotation approximation. We study the relations in particular class of massive scalar-sensor theories with self-interaction, for which significant deviations from General Relativity are allowed for values of the parameters that are in agreement with the observations. Moment of inertia-compactness relations are examined for different normalisation of the moment of inertia. It is shown that for all studied cases the deviations from EOS universality are small for the examined equations of state. On the other hand the scalarization can lead to large deviations from the general relativistic universal relations for values of the parameters that are in agreement with the current observations that can be potentially used to set further test the scalar-tensor theories.

fields

gr-qc 1

years

2026 1

verdicts

UNVERDICTED 1

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Donutization Inside Neutron Stars: Shell-Localized Scalar Fields

gr-qc · 2026-05-25 · unverdicted · novelty 6.0

Heavy scalar fields in neutron stars form interior shell-localized profiles that reshape the effective equation of state and break the I-Q relation while remaining hidden from binary pulsar observations.

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  • Donutization Inside Neutron Stars: Shell-Localized Scalar Fields gr-qc · 2026-05-25 · unverdicted · none · ref 19 · internal anchor

    Heavy scalar fields in neutron stars form interior shell-localized profiles that reshape the effective equation of state and break the I-Q relation while remaining hidden from binary pulsar observations.