Tuesday, February 12, 2013

1302.0875 (Antonio Claret et al.)

The internal structure of neutron stars and white dwarfs, and the Jacobi virial equation. II    [PDF]

Antonio Claret, Matthias Hempel
In a previous paper we have shown that the function \Gamma(M, EOS)=\alpha\beta_{GR}/\Lambda^{0.9}(R) is constant (~ 0.4) for pre main-sequence stars (PMS), white dwarfs (WD) and for some neutron star (NS) models, \alpha_{GR} and \beta_{GR} being the form-factors of the gravitational potential energy and of the moment of inertia. In order to investigate the structural evolution of another kind of celestial bodies, we use the MESA code to extend these calculations to gaseous planets. We show that the mentioned function is conserved for all models during the whole planetary evolution and is independent of the planet mass. We also analyse the causes for which the mentioned function is not conserved during some stellar evolutionary phases. With respect to the pre main-sequence up to the white dwarf cooling sequences, we have found a connection between the large variations of \Gamma(M, EOS) during the intermediary evolutionary phases and the specific nuclear power. A threshold for the specific nuclear power was found. Below this limit the mentioned function is invariant (~ 0.4) for these models, i. e., at the initial and final stages (PMS and WD). Concerning NS, we study the influence of the equation of state (EOS) on the mentioned function and refine the exponent of the auxiliary function \Lambda(R) to be ~ 0.8. It was shown that the function \Gamma(M, EOS) is also invariant (~ 0.4) and is independent of the EOS and of the stellar mass. Therefore, we confirm that regardless of the final products of the stellar evolution, NS or WD, they recover the initial value of \Gamma(M, EOS) ~ 0.4 acquired at the PMS. Finally, we have introduced a macroscopic stability "criterion" for neutron star models based on the properties of the relativistic product \alpha\beta_{GR}.
View original: http://arxiv.org/abs/1302.0875

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