Bidisha Ghosh scite author profile

In this paper, we have considered a twofluid model assuming that the pulsars are made of ordinary matter admixed with dark matter.Contribution of dark matter comes from the fitting of the rotation curves of the SPARC sample of galaxies[95]. For this we have investigated the dark matter based on the Singular Isothermal Sphere (SIS) dark matter density profile in the galactic halo region. Considering this twofluid model, we have studied the physical features of the pulsars present in different galaxy in details. Here, we compute the probable radii, compactness (u) and surface red-shift (Z s

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Analytical model of millisecond pulsar PSR J0514-4002A

Molla

Ghosh

Kalam

2020

Eur. Phys. J. Plus

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We construct a relativistic model for the newly discovered millisecond pulsar PSR J0514-4002A located in the globular cluster NGC 1851 (A. Ridolfi, P.C.C. Freire, Y. Gupta, S.M. Ransom, MNRAS 490, 3860 (2019)) by using Tolman VII spacetime. We have obtained central density (ρ 0), central pressure (p 0), probable radius, compactness (u) and surface redshift (Z s) of the above mentioned newly discovered millisecond pulsar, which is very much consistent with reported data. Equation of State (EoS) of the millisecond pulsar has comes out as stiff in nature which is physically acceptable. Not even that our proposed model can analyze most of the millisecond pulsars having masses up to 1.51M ⊙ .

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Properties of rotating neutron stars in light of binary compact object mergers

Ghosh

Kalam

2022

Eur. Phys. J. Plus

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The properties of rotating neutron stars are investigated using eight equations of state (EOSs). We also study the relations between various observables corresponding to different angular velocities for all those EOSs. All of these EoSs lead to non-rotating compact stars with maximum masses between 1.8 to 2.25 M ⊙ . We calculate the moment of inertia and studied its variation with mass and the relation between central energy density and angular momentum. We compare our results with the observational findings from the most massive pulsar PSR J0740+6620 and the heaviest secondary component in the black hole -neutron star merger GW190814. It is noted that the secondary compact object of GW190814 having mass ∼ 2.6M ⊙ might be explained as a rapidly rotating neutron star (NS) with frequency larger than 1000 Hz.

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Bidisha Ghosh

Does dark matter admixed pulsar exist?

Analytical model of millisecond pulsar PSR J0514-4002A

Properties of rotating neutron stars in light of binary compact object mergers

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