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    Baryonic dense matter in view of gravitational-wave observations
    (2021-10-01)
    Thapa, Vivek Baruah
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    The detection of gravitational waves (GWs) from the merger of binary neutron star (NS) events (GW170817 and GW190425) and subsequent estimations of tidal deformability play a key role in constraining the behaviour of dense matter. In addition, massive NS candidates (∼2 M) along with NICER mass-radius measurements also set sturdy constraints on the dense matter equation of state. Strict bounds from GWs and massive NS observations constrain the theoretical models of nuclear matter comportment at large density regimes. On the other hand, model parameters providing the highly dense matter response are bounded by nuclear saturation properties. This work analyses coupling parametrizations from two classes based on covariant density functional models: non-linear and density-dependent schemes. Considering these constraints together, we study possible models and parametrization schemes with the feasibility of exotic degrees of freedom in dense matter which go well with the astrophysical observations as well as the terrestrial laboratory experiments. We show that most parametrizations with non-linear schemes do not support the observations and experiments while density-dependent scheme goes well with both. Astrophysical observations are well explained if the inclusion of heavier non-strange baryons is considered as one fraction of the dense matter particle spectrum.
    Scopus© Citations 7
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    Publication
    Compact star merger events with stars composed of interacting strange quark matter
    (2022-07-01) ;
    Thapa, Vivek Baruah
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    We investigate the properties of stars participating in double compact star merger events considering interacting model of stable strange quark matter. We model the matter making it compatible with the recent astrophysical observations of compact star mass-radius and gravitational wave events. In this context, we consider modified MIT bag model and vector bag model with and without self-interaction. We find new upper bound on tidal deformability of 1 . 4 M ⊙strange star corresponding to the upper bound of effective tidal deformability inferred from gravitational wave event. Range of compactness of 1 . 4 M ⊙strange star is obtained as 0.175 ≤C 1.4 ≤0.199. Radius range of 1 . 5 M ⊙primary star is deduced to be 10.57 km ≤R 1.5 ≤12.04 km, following stringent GW170817 constraints. GW190425 constraints provide with upper limit on radius of 1.7 solar mass strange star that it should be less than 13 . 41 km.
    Scopus© Citations 9