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Fermion-axion stars: Static solutions and dynamical stability

Fermion-axion stars: Static solutions and dynamical stability
Fermion-axion stars: Static solutions and dynamical stability
We construct spherically symmetric static solutions of the Einstein-Klein-Gordon-Euler system involving a complex scalar field governed by a periodic potential that emerges in models of axionlike particles and fermionic matter modeled by a perfect fluid with a polytropic equation of state. Such solutions describe gravitationally bound composites of fermions and axions, which we dub fermion-axion stars. Sequences of pure axion stars in the existence domain may show the presence of multiple stable branches depending on the value of the decay constant parameter in the potential; this reflects in the appearance of multiple islands of stability in the two-dimensional parameter space of fermion-axion configurations. We investigate the domain of existence for three different values of the decay constant, identifying one or more regions of linear stability, making use of a method we already employed in previous works. We confirm the results from the linear analysis performing fully nonlinear numerical relativity evolutions. In this context, we perform several numerical simulations to identify regions in the parameter space where unstable models face different fates: the collapse to a Schwarzschild black hole, the migration to a stable model, and finally the dispersion of the scalar field together with the dilution of the fermionic matter, which approaches a static fermion star model with very low mass. This latter scenario was never observed in previous models without the periodic potential.
2470-0010
Giovanni, Fabrizio Di
e0c760bb-fab6-4f19-b4e7-26973f80835d
Guerra, Davide
b7630d45-2130-41ff-8097-99424e8b6a92
Albanesi, Simone
c835aa2a-cc69-4df6-a1fe-e80e34df390a
Miravet-Tenés, Miquel
398b0819-ed3a-44a3-aa0c-4e912ebcbef1
Tseneklidou, Dimitra
e8ba2daf-4d68-4284-ab29-6cf9030922b8
Giovanni, Fabrizio Di
e0c760bb-fab6-4f19-b4e7-26973f80835d
Guerra, Davide
b7630d45-2130-41ff-8097-99424e8b6a92
Albanesi, Simone
c835aa2a-cc69-4df6-a1fe-e80e34df390a
Miravet-Tenés, Miquel
398b0819-ed3a-44a3-aa0c-4e912ebcbef1
Tseneklidou, Dimitra
e8ba2daf-4d68-4284-ab29-6cf9030922b8

Giovanni, Fabrizio Di, Guerra, Davide, Albanesi, Simone, Miravet-Tenés, Miquel and Tseneklidou, Dimitra (2022) Fermion-axion stars: Static solutions and dynamical stability. Physical Review D, 106, [084013]. (doi:10.1103/PhysRevD.106.084013).

Record type: Article

Abstract

We construct spherically symmetric static solutions of the Einstein-Klein-Gordon-Euler system involving a complex scalar field governed by a periodic potential that emerges in models of axionlike particles and fermionic matter modeled by a perfect fluid with a polytropic equation of state. Such solutions describe gravitationally bound composites of fermions and axions, which we dub fermion-axion stars. Sequences of pure axion stars in the existence domain may show the presence of multiple stable branches depending on the value of the decay constant parameter in the potential; this reflects in the appearance of multiple islands of stability in the two-dimensional parameter space of fermion-axion configurations. We investigate the domain of existence for three different values of the decay constant, identifying one or more regions of linear stability, making use of a method we already employed in previous works. We confirm the results from the linear analysis performing fully nonlinear numerical relativity evolutions. In this context, we perform several numerical simulations to identify regions in the parameter space where unstable models face different fates: the collapse to a Schwarzschild black hole, the migration to a stable model, and finally the dispersion of the scalar field together with the dilution of the fermionic matter, which approaches a static fermion star model with very low mass. This latter scenario was never observed in previous models without the periodic potential.

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Published date: 11 October 2022

Identifiers

Local EPrints ID: 503235
URI: http://eprints.soton.ac.uk/id/eprint/503235
DOI: doi:10.1103/PhysRevD.106.084013
ISSN: 2470-0010
PURE UUID: 88ebdf47-4f04-4f2d-93f7-5d9d99c3188c
ORCID for Miquel Miravet-Tenés: ORCID iD orcid.org/0000-0002-8766-1156

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Date deposited: 24 Jul 2025 17:02
Last modified: 25 Jul 2025 02:15

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Contributors

Author: Fabrizio Di Giovanni
Author: Davide Guerra
Author: Simone Albanesi
Author: Miquel Miravet-Tenés ORCID iD
Author: Dimitra Tseneklidou

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