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Numerical Treatment Of Hartle'S Perturbation Method For Differentially Rotating Neutron Stars Simulated By General-Relativistic Polytropic Models

Author

Listed:
  • V. S. GEROYANNIS

    (Astronomy Laboratory, Department of Physics, University of Patras, Greece)

  • A. G. KATELOUZOS

    (Astronomy Laboratory, Department of Physics, University of Patras, Greece)

Abstract

We compute general-relativistic polytropic models of differentially rotating neutron stars. A brief description of our numerical treatment is given as follows. First, the relativistic Oppenheimer–Volkoff equations of hydrostatic equilibrium are solved for nonrotating models obeying the well-known polytropic equation of state. Then, uniform rotation assumed for such models is treated in the framework of Hartle's perturbation method; thus, corrections to mass and radius, owing to spherical and quadrupole deformations, are calculated. Next, a perturbative approach to the stellar structure up to terms of third order in the angular velocity is carried out; angular momentum,J, moment of inertia,I, rotational kinetic energy,T, and gravitational potential energy,W, are quantities drastically corrected by the third-order approach. Finally, assuming that our polytropic models satisfy a particular differential rotation law, we compute the increase in mass and in some other significant physical characteristics owing to the differential rotation.

Suggested Citation

  • V. S. Geroyannis & A. G. Katelouzos, 2008. "Numerical Treatment Of Hartle'S Perturbation Method For Differentially Rotating Neutron Stars Simulated By General-Relativistic Polytropic Models," International Journal of Modern Physics C (IJMPC), World Scientific Publishing Co. Pte. Ltd., vol. 19(12), pages 1863-1908.
    • Handle: RePEc:wsi:ijmpcx:v:19:y:2008:i:12:n:s0129183108013370
    DOI: 10.1142/S0129183108013370
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