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A Procedure For Two-Dimensional Asymptotic Rotational-Splitting Inversion
Published online by Cambridge University Press: 12 April 2016
Abstract
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Rotational splitting Δω(n,l,m) of the eigenfrequencies of a star rotating with angular velocity Ω(r, θ) about a unique axis can be represented as a weighted integral of Ω over r and θ, (r, θ, φ) being spherical polar coordinates about the axis of rotation. For high-frequency acoustic modes, Δω/m collapses essentially to a function of ω — ω /(l+1/2) and M = m/(l + 1/2) alone, and the weighting kernel K(r,θ) becomes asymptotically degenerate, each factor being of essentially Abel type. Therefore, formally, the splitting integral can be inverted, once a procedure has been found for extending Δω over the domain of (ω, M) such that the turning points (rt,ωt), given by (c(rt)/rt, sinωt) = (ω, M) where c is sound speed, span the star. Obtaining that representation is the most difficult stage of the inversion. We report on a procedure that treats the inverted two-dimensional Abel integral as a repeated double integral, representing the data successively along a set of parallel lines M =constant. The method is illustrated by an inversion of artificial data which is compared with the angular velocity from which those data were computed.
- Type
- VI. Asteroseismology: theory
- Information
- Copyright
- Copyright © Astronomical Society of the Pacific 1993
References
Gough, D.O.
1992, In Astrophysical Fluid Dynamics, Les Houches XLVII, 1987, ed Zahn, J.-P. and Zinn-Justin, J., North Holland, Amsterdam
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