Our group has developed a pulsational
code that compute the linear, adiabatic, non-radial stellar pulsations (Córsico, 2003, PhD., University of La Plata).
This code is fully coupled to the LPCODE evolutionary code, which has enabled
us to study the pulsations of variable white dwarfs. One of our main
results concerns the mode trapping properties of white dwarfs. We find
that element diffusion strongly smoothes out the chemical
profiles, making the mode trapping caused by the outer chemical
interfaces notably less important (Córsico
et al., 2001, A&A, 380, L17). In collaboration with Michael
Montgomery of the University of Texas we started a joint project aimed at
exploring the pulsational properties of massive white dwarfs on the basis
of new and improved evolutionary models for these stars that
take into account time-dependent element diffusion, nuclear burning
and the history of the white dwarf progenitor. Our first results
suggest that the pulsational properties become very sensitive to the occurrence
of core overshooting during the evolutionary stages prior to the white dwarf
formation (Althaus L.G., Serenelli A.
M., Córsico A. H. & Montgomery M. H., 2003, A&A, 404,
593). In this connection, we are currently investigating the effect of
a solid core on the pulsational pattern of crystallized white dwarfs (see
Córsico A. H., Althaus L.G.,
Montgomery M. H., García-Berro E. & Isern J., 2005, A&A,
429, 277)