Constraining self-interacting fermionic dark matter in admixed neutron stars using multimessenger astronomy

Author:

Mariani Mauro12ORCID,Albertus Conrado3,Alessandroni M del Rosario1,Orsaria Milva G124ORCID,Pérez-García M Ángeles3,Ranea-Sandoval Ignacio F12ORCID

Affiliation:

1. Grupo de Astrofísica de Remanentes Compactos, Facultad de Ciencias Astronómicas y Geofísicas, Universidad Nacional de La Plata , Paseo del Bosque S/N, La Plata (1900) , Argentina

2. CONICET , Godoy Cruz 2290, 1425, CABA , Argentina

3. Department of Fundamental Physics and IUFFyM, University of Salamanca , Plaza de la Merced S/N E-37008, Salamanca , Spain

4. Department of Physics, San Diego State University , 5500 Campanile Drive, San Diego, CA 92182 , USA

Abstract

ABSTRACT We investigate the structure of admixed neutron stars with a regular hadronic component and a fraction of fermionic self-interacting dark matter. Using two limiting equations of state for the dense baryonic interior, constructed from piecewise generalized polytropes, and an asymmetric self-interacting fermionic dark component, we analyse different scenarios of admixed neutron stars depending on the mass of dark fermions mχ, interaction mediators mϕ, and self-interacting strengths g. We find that the contribution of dark matter to the masses and radii of neutron stars leads to tension with mass estimates of the pulsar J0453+1559, the least massive neutron star, and with the constraints coming from the GW170817 event. We discuss the possibilities of constraining dark matter model parameters g and y ≡ mχ/mϕ, using current existing knowledge on neutron star estimations of mass, radius, and tidal deformability, along with the accepted cosmological dark matter freeze-out values and self-interaction cross-section to mass ratio, σSI/mχ, fitted to explain Bullet, Abell, and dwarf galaxy cluster dynamics. By assuming the most restrictive upper limit, σSI/mχ < 0.1 cm2 g−1, along with dark matter freeze-out range values, the allowed g–y region is 0.01 ≲ g ≲ 0.1, with 0.5 ≲ y ≲ 200. For the first time, the combination of updated complementary restrictions is used to set constraints on self-interacting dark matter.

Funder

CONICET

UNLP

National Science Foundation

ANPCyT

Publisher

Oxford University Press (OUP)

Subject

Space and Planetary Science,Astronomy and Astrophysics

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