Effects of dark boson mediated feeble interaction between dark matter (DM) and quark matter on f-mode oscillation of DM admixed quark stars
Abstract
We investigate the behavior of the prominent non-radial fundamental f-mode oscillations of dark matter (DM) admixed strange quark stars (DMSQSs), by adopting an equation of state (EoS) developed in Ref.~Sen:2022pfr, which considers the possible presence of feebly interacting DM in strange quark stars (SQSs) for the first time. Within the model, feeble interaction between fermionic DM and strange quark matter (SQM) is invoked via a vector new physics mediator with coupling strength y. The pure SQM is described by the vector MIT Bag model. By varying different EoS parameters, the structural properties viz. the mass, radius and tidal deformability () of the DMSQSs are studied with respect to various astrophysical constraints. We study in detail the f-mode spectra within the Cowling approximation by obtaining the frequencies as a function of mass, compactness and of the star. To the best of our knowledge, this study represents the first analysis of non-radial f-mode oscillations of DMSQSs. Our investigation indicates that the presence of DM and its interaction with SQM has great impact on the f-modes. We show that the f-mode frequencies are larger for DMSQSs, which are largely populated with massive DM fermions, compared to the SQSs. Further, we obtain a linear empirical relation between the f-modes and the average density of the star. We also find that the mass-scaled angular frequency varies universally with compactness and for DMSQSs. Further, our studies indicate that the inclusion of DM in compact stars reduces the deviation of f-mode frequency from general relativistic to Cowling approximation.
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