Astronomy and Astrophysics – Astrophysics – General Relativity and Quantum Cosmology
Scientific paper
2011-02-11
PoS CRASchool2010:020,2010
Astronomy and Astrophysics
Astrophysics
General Relativity and Quantum Cosmology
8 pages, 2 figure. Prepared for the proceedings of the 4th School on Cosmic Rays and Astrophysics, Santo Andre, Brazil, August
Scientific paper
The equation of state inside very compact objects like neutron stars is still largely unkown. Even though a lot progress has been made in recent years to develop the so-called realistic equations of state, a lot of insight can be gained by using polytropic equations of state to integrate the stellar equations of structure. In this work we provide a brief review of the Newtonian and relativistic equations of structure and present some numerical results, which we believe that can be useful for students starting to work on this field. The internal structure of the Newtonian polytropes is obtained by the numerical integration of the Lane-Emden equation, and we used our results which can also be used to study the Chandrasekhar limit for white dwarfs. However, Newtonian physics cannot correctly describe very compact and massive objects. There is an upper mass limit for neutron stars, supported by observations, which is not predicted by the Newtonian equations. Neutron stars are best described under the framework of General Relativity. The introduction of the TOV equations (as well as the relativistic Lane-Emden equations) is, therefore, necessary to correctly identify stable and non-stable models via the mass-radius relation. The analysis of the EoS also becomes relevant to discard models that allow a possible violation of causality (sound speed larger than c).
Araujo F. M.
Chirenti Cecilia B. M. H.
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