Exact solution for the rotating polytropes with index unity, its approximations and some applications

The fundamental stages of development of the polytropic theory of stars with axial rotation are considered as a generalization of the Lane-Emden theory. The solution of the differential equilibrium equation for the polytropic star model with index n = 1 and axial rotation with the angular velocity o...

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Veröffentlicht in:Contributions of the Astronomical Observatory Skalnaté Pleso 2020-01, Vol.50 (4), p.748-771
Hauptverfasser: Vavrukh, M. V., Dzikovskyi, D.
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Sprache:eng
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Zusammenfassung:The fundamental stages of development of the polytropic theory of stars with axial rotation are considered as a generalization of the Lane-Emden theory. The solution of the differential equilibrium equation for the polytropic star model with index n = 1 and axial rotation with the angular velocity omega is presented in the form of infinite series of the Legendre polynomials and the spherical Bessel functions. Two variants of the approximate solution in the form of the finite number of terms are proposed. Integration constants were found in a self-consistent way using the integral form of the equilibrium equation and the iteration numerical method. Dependence of the geometrical and physical characteristics of the model on the dimensionless angular velocity Omega = omega(2 pi G rho(c))(-1/2) (where rho(c) is the density in the centre) is analyzed. A comparison with the results of other authors is performed. The obtained critical value of the angular velocity Omega(max), when an instability occurs is smaller than in other works (Chandrasekhar, 1933; James, 1964, and et al.). The inverse problem is also considered - a determination of the polytropic model parameters for individual stars based on the solution of the equilibrium equation according to the values of their masses and radii, which are known from observations. In particular, the model parameters for the star alpha Eri, as well as a similar "class" of the star models of types O5 divided by GO, were determined. The solution of the equilibrium equation for the polytrope n = 1 +delta (where 5 is a small value) is obtained using the method of perturbation theory.
ISSN:1335-1842
1336-0337
DOI:10.31577/caosp.2020.50.4.748