14–17 Jul 2026
Pukyong National University
Asia/Seoul timezone

Constraints on maximum neutron star mass from protoneutron star evolution

Not scheduled
20m
Pukyong Convention Hall (Pukyong National University)

Pukyong Convention Hall

Pukyong National University

Pukyong National University, 45 Yongso-ro, Nam-gu, Busan, 48513, South Korea
Oral presentation (contributed) Scientific Contributions Contributed Talks

Speaker

Deepak Kumar (Institute of Physics Bhuabneswar)

Description

A proto-neutron star (PNS) gets formed after a successful supernova when the stellar remnant decouples from the ejecta. In this study, we explore a relativistic framework for the finite-temperature $\beta$-equilibrium limit of equation of state (EOS), constrained via a Bayesian inference methodology. The EOS is obtained using a minimal number of constraints, including a few nuclear saturation properties, low-density pure neutron matter constraints from chiral effective field theory, and a neutron star (NS) maximum mass greater than 2.0 $M_{\odot}$. Two sets of EOS derived from the relativistic mean field model for nucleonic and hyperonic matter constrained by a Bayesian inference calculation at the zero temperature limit are used. The thermal adiabatic index ($\Gamma_{\rm Th}$) is calculated as a function of the baryonic density across several temperatures for both the sets. Our results suggest that the maximum NS mass is of the order of 2.15 $M_\odot$ if hyperons are present. In addition, the present study suggests that an observation of NS with mass larger than $2.2\ M_{\odot}$ can indirectly indicates the absence of hyperons in its core. The deleptonization of hyperonic PNS reduces the stellar maximum mass rendering the PNS exceeding the zero temperature maximum stellar (baryonic) mass limit becomes metastable which is prone to collapse into a black hole while PNS below such a mass threshold evolves to a stable NS.

Authors

Prof. Constanca Providencia (CFisUC, Department of Physics, University of Coimbra, PT 3004-516 Coimbra, Portugal) Deepak Kumar (Institute of Physics Bhuabneswar) Prof. Hirnamaya Mishra (School of Physics, National Institute of Science Education and Research, An OCC of Homi Bhabha National Institute, Jatni - 752050, India) Dr Tuhin Malik (CFisUC, Department of Physics, University of Coimbra, PT 3004-516 Coimbra, Portugal)

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