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Research Paper | Astronomy Science | Volume 15 Issue 6, June 2026 | Pages: 370 - 374 | India
Role of Quantum Chromodynamics in Core-Collapse Supernova
Abstract: This article examines the relationship between black holes, spacetime singularities, and the final stages of stellar evolution, with particular attention to the role of gravitational collapse and core-collapse supernovae. It outlines how a black hole eventually turns into singularity under conventional models. The discussion proposes that quantum chromodynamics may play a limiting role during extreme gravitational compression and consequent high energy situation. The article questions the physical reality of the present concept on singularity. The paper broadly outlines the life cycle of massive stars, from nebula formation to main-sequence evolution and core collapse. It further explains the processes involved in type-II supernova explosions, including neutron formation, neutrino emission, and heavy-element synthesis. The study highlights how the special characteristics of the quantum chromodynamics, particularly the asymptotic freedom of quarks trigger the supernova explosion of a black hole.
Keywords: Neutron Degeneracy Pressure, Quantum Chromodynamics, Black hole, Singularity, Core Collapse supernova
How to Cite?: Prosad Bhattacharya, "Role of Quantum Chromodynamics in Core-Collapse Supernova", Volume 15 Issue 6, June 2026, International Journal of Science and Research (IJSR), Pages: 370-374, https://www.ijsr.net/getabstract.php?paperid=SR26605163853, DOI: https://dx.dx.doi.org/10.21275/SR26605163853