Your search keyword '"Thapa, Vivek Baruah"' showing total 20 results

1. Bayesian Inference of dense matter equation of state of neutron star with antikaon condensation

Author

Parmar, Vishal, Thapa, Vivek Baruah, Kumar, Anil, Bandyopadhyay, Debades, and Sinha, Monika

Subjects

Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology

Abstract

In this paper, we employ the Density Dependent Relativistic Hadron (DDRH) field theoretical Model in a Bayesian analysis to investigate the equation of state (EOS) of dense matter featuring antikaon condensation for $K^-$ and $\bar{K}^0$ inside neutron stars. The vector coupling parameters within the kaonic sector are determined through the iso-spin counting rule and quark model. Our study integrates various constraints, including $\chi$EFT calculations, nuclear saturation properties, and astrophysical observations from pulsars PSR J0030+0451 and PSR J0740+66 and from the GW170817 event. We present posterior distributions of model parameters derived from these constraints, enabling us to explore the distributions of nuclear matter properties and neutron star (NS) characteristics such as radii, tidal deformabilities, central energy densities, and speed of sound. The antikaon potential at the 68(90)\% confidence intervals is determined to be $-129.36^{+12.53(+32.617)}_{-3.837(-5.696)}$ MeV. This aligns with several studies providing estimates within the range of $-120$ to $-150$ MeV. We find that the maximum neutron star mass is constrained to around 2M$_\odot$ due to the significant softening of the EOS caused by antikaon condensation. This softening results in a considerable decrease in the speed of sound. Although antikaon condensation for $K^-$ is not feasible inside the canonical neutron stars, it becomes feasible for higher NS masses. The condensation of both $K^-$ and $\bar{K}^0$ is probably present in the interior of neutron star with mass greater than 2M$_\odot$. We also discuss the interconnections among input variables, isoscalar and isovector aspects of the EOS, and specific NS properties in the context of antikaon condensation., Comment: 19 pages, 10 figures, Accepted for publication in Physical Review C (in press)

Published

2024

2. Exploring non-radial oscillation modes in dark matter admixed neutron stars

Author

Thakur, Pratik, Kumar, Anil, Thapa, Vivek Baruah, Parmar, Vishal, and Sinha, Monika

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Because of their extreme densities and consequently, gravitational potential, compact objects such as neutron stars can prove to be excellent captors of dark matter particles. Considering purely gravitational interactions between dark and hadronic matter, we construct dark matter admixed stars composed of two-fluid matter subject to current astrophysical constraints of maximum mass and tidal deformability. We choose a wide range of parameters to construct the dark matter equation of state, and the DDME2 parameterization for the hadronic equation of state. We then examine the effect of dark matter on the stellar structure, tidal deformability and non-radial modes considering the relativistic Cowling approximation. We find the effect on $p$-modes is substantial, with frequencies decreasing up to the typical $f-$mode frequency range for most stars with a dark matter halo. The effects on the $f-$mode frequency are less extreme. Finally, we find the most probable and $1\sigma$ values of the dark matter parameters used in this study., Comment: 23 pages and 5 figures

Published

2024

3. Universal relations for compact stars with exotic degrees of freedom

Author

Kumar, Anil, Ghosh, Manoj Kumar, Thakur, Pratik, Thapa, Vivek Baruah, and Sinha, Monika

Subjects

Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology, Nuclear Theory

Abstract

The nature of the highly dense matter inside the supernova remnant compact star is not constrained by terrestrial experiments and hence modeled phenomenologically to accommodate the astrophysical observations from compact stars. The observable properties of the compact stars are highly sensitive to the microscopic model of highly dense matter. However, some universal relations exist between some macroscopic properties of compact stars independent of the matter model. We study the universal relation including the stars containing exotic degrees of freedom such as heavier strange and non-strange baryons, strange quark matter in normal and superconducting phases, etc. We examine the universal relations for quantities moment of inertia - tidal love number - quadrupole moment. We also study the correlation of non-radial f-mode and p-mode frequencies with stellar properties. We find the f-mode frequency observes the universal relation with dimensionless tidal deformability but the p-mode frequency does not show a good correlation with stellar properties. The p-mode frequency is sensitive to the composition of the matter. We find that universal relation is also applicable for stars with exotic matter in the core of the star with several models of exotic matter., Comment: matches with the published version

Published

2023

4. Fast neutron star cooling in light of the PREX-2 experiment

Author

Sarkar, Trisha, Thapa, Vivek Baruah, and Sinha, Monika

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

The nuclear symmetry energy and its behaviour with density has been recently evaluated with enhanced value by PREX-2 experiment. This new values enables direct Urca neutrino emission process to be functioning in the dense matter inside neutron stars. With this new outlook we study the cooling rate of canonical mass neutron stars and compare with available observational cooling data. We find most of the isolated neutron star thermal profile is compatible with the cooling of canonical mass star including superfluidity suppression., Comment: 8 pages, 5 figures. Accepted for publication in Phys. Rev. C

Published

2023

5. Hybrid stars are compatible with recent astrophysical observations

Author

Kumar, Anil, Thapa, Vivek Baruah, and Sinha, Monika

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Compact stars (CS) are stellar remnants of massive stars. Inside CSs the density is so high that matter is in subatomic form composed of nucleons. With increase of density of matter towards the centre of the objects other degrees of freedom like hyperons, heavier non-strange baryons, meson condensates may appear. Not only that at higher densities, the nucleons may get decomposed into quarks and form deconfined strange quark matter (SQM). If it is so then CSs may contain SQM in the core surrounded by nucleonic matter forming hybrid stars (HSs). However, the nature and composition of matter inside CSs can only be inferred from the astrophysical observations of these CSs. Recent astrophysical observations in terms of CS mass-radius (M-R) relation and gravitational wave (GW) observation indicate that the matter should be soft in the intermediate density range and stiff enough at higher density range to attain the maximum possible mass above $2~M_\odot$ which is not compatible with pure hadronic equation of states (EOSs). Consequently, we study the HS properties with different models of SQM and find that within vector bag model considering density dependent bag parameter, the model goes well with the astrophysical observations so far., Comment: 12 pages, 9 figures; Accepted for publication in Phys. Rev. D

Published

2023

6. Universal relations for compact stars with exotic degrees of freedom

Author

Kumar, Anil, Ghosh, Manoj Kumar, Thakur, Pratik, Thapa, Vivek Baruah, Nath, Kamal Krishna, and Sinha, Monika

Published

2024

7. Frequencies of $f$- and $p$-oscillation modes in cold and hot compact stars

Author

Thapa, Vivek Baruah, Beznogov, Mikhail V., Raduta, Adriana R., and Thakur, Pratik

Subjects

Nuclear Theory, Astrophysics - High Energy Astrophysical Phenomena

Abstract

A large collection of equations of state (EOSs) built within the covariant density functional (CDF) theory of hadronic matter and allowing for density dependent (DD) couplings is employed to study polar $f$- and $p$- oscillations of cold and hot compact stars. Correlations between oscillation frequencies of cold purely nucleonic neutron stars (NSs), their global parameters as well as properties of nuclear matter (NM) are investigated by considering a set of models from Beznogov and Raduta, [Phys.~Rev.~C 107, 045803 (2023)], where a number of constraints on the saturation properties of NM, pure neutron matter (PNM) and the lower bound of the maximal NS mass were imposed within a Bayesian framework. The roles of finite temperature and exotic particle degrees of freedom, e.g., hyperons, $\Delta$-resonances, anti-kaon condensates or a hadron to quark phase transition, are addressed by employing a family of models publicly available on \textsc{CompOSE} and assuming idealized profiles of temperature or entropy per baryon and charge fraction. We find that finite temperature effects reduce the oscillation frequencies of nucleonic stars while the opposite effect is obtained for stars with exotic particle degrees of freedom. When the $\Gamma$-law is employed to build finite temperature EOSs, errors in estimating oscillation modes frequencies are of the order of 10\% to 30\%, depending on the mass. Throughout this work the Cowling approximation is used., Comment: 12 pages, 7 figures, 2 tables

Published

2023

8. Tension between implications from PREX-2 data and gravitational tidal response on dense matter equation of state

Author

Thapa, Vivek Baruah and Sinha, Monika

Subjects

Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology

Abstract

Recently an improved value of neutron skin thickness of $^{208}\text{Pb}$ was reported in Lead Radius EXperiment-2 (PREX-2) to be $R_{\text{skin}}=R_n - R_p=(0.283\pm 0.071)$ fm which corresponds to high estimations of nuclear symmetry energy ($E_{\text{sym}}$) and its slope ($L_{\text{sym}}$). The updated values of $E_{\text{sym}}$ and $L_{\text{sym}}$ commensurating to the neutron star observable estimations lie exterior to the astrophysical observed range. The higher values of $L_{\text{sym}}$ at $n_0$ deduced from recent PREX-2 data correlates to matter being easily deformable (yielding higher radius values) around intermediate matter densities leading to higher values of $\tilde{\Lambda}$ creating a tension between the terrestrial and astrophysical observations. In this study, we exploit this tension to constrain the $\Delta$-scalar meson coupling parameter space., Comment: 6 pages, 3 figures. Conference proceeding of the "Nuclear Physics in Astrophysics-X 2022". To appear in EPJ Web of Conferences

Published

2023

9. (Anti)kaon condensation in strongly magnetized dense matter

Author

Kundu, Debraj, Thapa, Vivek Baruah, and Sinha, Monika

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Nuclear Theory

Abstract

Recent observations of several massive pulsars, with masses near and above $2~M_\odot$, point towards the existence of matter at very high densities, compared to normal matter that we are familiar with in our terrestrial world. This leads to the possibility of appearance of exotic degrees of freedom other than nucleons inside the core of the neutrons stars (NS). Another significant property of NSs is the presence of high surface magnetic field, with highest range of the order of $\sim~10^{16}$ G. We study the properties of highly dense matter with the possibility of appearance of heavier strange and non-strange baryons, and kaons in presence of strong magnetic field. We find that the presence of a strong magnetic field stiffens the matter at high density, delaying the kaon appearance and, hence, increasing the maximum attainable mass of NS family., Comment: 16 pages, 10 figures; accepted for publication in Phys. Rev. C

Published

2022

10. Compact star merger events with stars composed of interacting strange quark matter

Author

Kumar, Anil, Thapa, Vivek Baruah, and Sinha, Monika

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

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 $1.4~M_\odot$ strange star corresponding to the upper bound of effective tidal deformability inferred from gravitational wave event. Range of compactness of $1.4~M_\odot$ strange star is obtained as ${0.175}\leq{C_{1.4}}\leq{0.199}$. Radius range of $1.5M_\odot$ primary star is deduced to be ${10.57}\leq{R_{1.5}}\leq{12.04}$ 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 $13.41$ $\text{km}$., Comment: 10 pages, 9 figures, 4 tables. Corrected some typos, published version

Published

2022

11. Direct URCA process in light of PREX-2

Author

Thapa, Vivek Baruah and Sinha, Monika

Subjects

Nuclear Theory, Astrophysics - High Energy Astrophysical Phenomena

Abstract

We study the implications of the recent development in nuclear symmetry energy constraints from PREX-2 data on dense matter equation of state and its impact on dURCA threshold density. In this work, we construct the equation of state within the framework of covariant density functional theory implementing coupling schemes of non-linear and density-dependent models and exploring the coupling parameter space of isovector-vector meson to baryons constrained by the isospin asymmetry parameter values deduced from recent PREX-2 data. The modified parameter sets are applied to evaluate the dense matter properties. We find that the updated data suggests the occurrence of dURCA process within neutron star even with mass as low as one solar mass., Comment: 8 pages, 7 figures, 3 tables

Published

2022

12. Influence of the nuclear symmetry energy slope on observables of compact stars with $\Delta$-admixed hypernuclear matter

Author

Thapa, Vivek Baruah and Sinha, Monika

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Nuclear Theory

Abstract

In this work, we study the effects of nuclear symmetry energy slope on neutron star dense matter equation of state and its impact on neutron star observables (mass-radius, tidal response). We construct the equation of state within the framework of covariant density functional theory implementing coupling schemes of non-linear and density-dependent models with viability of heavier non-nucleonic degrees of freedom. The slope of symmetry energy parameter ($L_{\text{sym}}$) is adjusted following density-dependence of isovector meson coupling to baryons. We find that smaller values of $L_{\text{sym}}$ at saturation favour early appearance of $\Delta$-resonances in comparison to hyperons leading to latter's threshold at higher matter densities. We also investigate the dependence of $L_{\text{sym}}$ on tidal deformability and compactness parameter of a $1.4~M_\odot$ neutron star for different equation of states and observe similar converging behaviour for larger $L_{\text{sym}}$ values., Comment: 14 pages, 10 figures, 8 tables; corrected some typos; matches with published version

Published

2021

13. Baryonic dense matter in view of gravitational-wave observations

Author

Thapa, Vivek Baruah, Kumar, Anil, and Sinha, Monika

Subjects

Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology

Abstract

The detection of gravitational waves from the merger of binary neutron stars events (GW170817, GW190425) and subsequent estimations of tidal deformability play a key role in constraining the behaviour of dense matter. In addition, massive neutron star candidates ($\sim 2 M_{\odot}$) along with NICER mass-radius measurements also, set sturdy constraints on the dense matter equation of state. Strict bounds from gravitational waves and massive neutron stars 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., Comment: 13 pages, 13 figures, corrected some typos, matches the published version

Published

2021

14. Massive $\Delta$-resonance admixed hypernuclear stars with anti-kaon condensations

Author

Thapa, Vivek Baruah, Sinha, Monika, Li, Jia Jie, and Sedrakian, Armen

Subjects

Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology

Abstract

In this work, we study the effect of (anti)kaon condensation on the properties of compact stars that develop hypernuclear cores with and without an admixture of $\Delta$-resonances. We work within the covariant density functional theory with the parameters adjusted to $K$-atomic and kaon-nucleon scattering data in the kaonic sector. The density-dependent parameters in the hyperonic sector are adjusted to the data on $\Lambda$ and $\Xi^-$ hypernuclei data. The $\Delta$-resonance couplings are tuned to the data obtained from their scattering off nuclei and heavy-ion collision experiments. We find that (anti)kaon condensate leads to a softening of the equation of state and lower maximum masses of compact stars than in the absence of the condensate. Both the $K^-$ and $\bar K^0$-condensations occur through a second-order phase transition, which implies no mixed-phase formation. For large values of (anti)kaon and $\Delta$-resonance potentials in symmetric nuclear matter, we observe that condensation leads to an extinction of $ \Xi^{-,0}$ hyperons. We also investigate the influence of inclusion of additional hidden-strangeness $\sigma^{*}$ meson in the functional and find that it leads to a substantial softening of the equation of state and delay in the onset of (anti)kaons., Comment: 14 pages, 11 figures, accepted for publication in Phys. Rev. D

Published

2021

15. Dense matter equation of state of a massive neutron star with anti-kaon condensation

Author

Thapa, Vivek Baruah and Sinha, Monika

Subjects

Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology

Abstract

Recent measurements of neutron star mass from several candidates (PSR J$1614-2230$, PSR J$0348+0432$, MSP J$0740+6620$) set the lower bound on the maximum possible mass for this class of compact objects $\sim 2$ M$_\odot$. Existence of stars with high mass brings the possibility of existence of exotic matter (hyperons, meson condensates) at the core region of the objects. In this work, we investigate the (anti)kaon ($K^-, \bar{K}^0$) condensation in $\beta-$equilibrated nuclear matter within the framework of covariant density functional theory. The functionals in the kaonic sector are constrained by the experimental studies on $K^-$ atomic, kaon-nucleon scattering data fits. We find that the equation of state softens with the inclusion of (anti)kaon condensates, which lowers the maximum mass of neutron star. In one of the density-independent coupling cases, the $K^-$ condensation is through a first-order phase transition type, which produces a $2$ M$_\odot$ neutron star. The first-order phase transition results in mixed phase region in the inner core of the stars. While $\bar{K}^0$ condensation appears via second-order phase transition for all the models we consider here., Comment: 14 pages, 13 figures, corrected some typos, matches with the published version

Published

2020

16. Equation of state of strongly magnetized matter with hyperons and $\Delta$-resonances

Author

Thapa, Vivek Baruah, Sinha, Monika, Li, Jia-Jie, and Sedrakian, Armen

Subjects

High Energy Physics - Phenomenology, Astrophysics - High Energy Astrophysical Phenomena, Nuclear Theory

Abstract

We construct a new equation of state for the baryonic matter under an intense magnetic field within the framework of covariant density functional theory. The composition of matter includes hyperons as well as $ \Delta$-resonances. The extension of the nucleonic functional to the hypernuclear sector is constrained by the experimental data on $\Lambda$ and $\Xi$-hypernuclei. We find that the equation of state stiffens with the inclusion of the magnetic field, which increases the maximum mass of neutron star compared to the non-magnetic case. In addition, the strangeness fraction in the matter is enhanced. Several observables, like the Dirac effective mass, particle abundances, etc show typical oscillatory behavior as a function of the magnetic field and/or density which is traced back to the occupation pattern of Landau levels., Comment: 16 pages, 8 figures, Accepted in journal "Particles", Corrected some typos. Matches with published version

Published

2020

17. Tension between implications from PREX-2 data and gravitational tidal response on dense matter equation of state

Author

Thapa, Vivek Baruah, primary and Sinha, Monika, additional

Published

2023

18. Compact star merger events with stars composed of interacting strange quark matter

Author

Kumar, Anil, primary, Thapa, Vivek Baruah, additional, and Sinha, Monika, additional

Published

2022

19. Baryonic dense matter in view of gravitational-wave observations

Author

Thapa, Vivek Baruah, primary, Kumar, Anil, additional, and Sinha, Monika, additional

Published

2021

20. Equation of State of Strongly Magnetized Matter with Hyperons and Δ-Resonances

Author

Thapa, Vivek Baruah, primary, Sinha, Monika, additional, Li, Jia Jie, additional, and Sedrakian, Armen, additional

Published

2020