A NEW NUMERICAL APPROACH TO SOLVE TOV EQUATION FOR NEUTRON STARS MATTER

Authors

  • Zukhra Shamsimukhamadova Author

DOI:

https://doi.org/10.1808/njv4kj93

Keywords:

Neutron Stars; Eos of Neutron star; Numerical solution of TOV equation; Power series method of solving TOV equation

Abstract

Earthly experiments fall short of recreating the incredibly high densities encountered in neutron stars and supernovae. These cosmic events offer an unparalleled opportunity to explore matter squeezed far beyond its usual limits within the nucleus. By piecing together the puzzle using findings from nuclear experiments, astrophysical observations, and powerful theoretical models, scientists can unveil the secrets of this strange, ultra-dense matter. While primarily made of neutrons, neutron stars might contain additional surprise guests – hyperons and quarks. These particles, existing outside the realm of typical atomic nuclei, influence the structure and composition of these stars. The core equations describing these objects, known as the equations of state, are the central theme of this article. We begin with a concise overview of their formation, exploring their defining characteristics and structural peculiarities.

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Published

2024-06-08

How to Cite

Zukhra Shamsimukhamadova. (2024). A NEW NUMERICAL APPROACH TO SOLVE TOV EQUATION FOR NEUTRON STARS MATTER. INTERNATIONAL JOURNAL OF SCIENCE AND TECHNOLOGY, 1(19), 126-138. https://doi.org/10.1808/njv4kj93

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