4.6 Article

A new method for the spectroscopic identification of stellar non-radial pulsation modes - I. The method and numerical tests

Journal

ASTRONOMY & ASTROPHYSICS
Volume 455, Issue 1, Pages 227-F3

Publisher

EDP SCIENCES S A
DOI: 10.1051/0004-6361:20064876

Keywords

line : profiles; techniques : spectroscopic; stars : variables : general

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Aims. We present the Fourier parameter fit method, a new method for spectroscopically identifying stellar radial and non-radial pulsation modes based on the high-resolution time-series spectroscopy of absorption-line profiles. In contrast to previous methods this one permits a quantification of the statistical significance of the computed solutions. The application of genetic algorithms in seeking solutions makes it possible to search through a large parameter space. Methods. The mode identification is carried out by minimizing chi(2), using the observed amplitude and phase across the line profile and their modeled counterparts. Computations of the theoretical line profiles are based on a stellar displacement field, which is described as superposition of spherical harmonics and that includes the first order effects of the Coriolis force. Results. We made numerical tests of the method on a grid of different mono- and multi-mode models for 0 <= l <= 4 in order to explore its capabilities and limitations. Our results show that whereas the azimuthal order m can be unambiguously identified for low-order modes, the error of l is in the range of +/- 1. The value of m can be determined with higher precision than with other spectroscopic mode identification methods. Improved values for the inclination can be obtained from the analysis of non-axisymmetric pulsation modes. The new method is ideally suited to intermediatley rotating delta Scuti and beta Cephei stars.

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