Modeling of the spectral energy distribution of the cataclysmic variable TT Ari and evaluation of the system parameters
Abstract
The spectral energy distribution (SED) of the TT Ari system, which is well known from published IUE and optical photometric observations, was modeled by a steady-state accretion α-disc around a white dwarf. Parameters of the system were derived from time-resolved optical spectral observations in the bright state that we obtained in Sep. 1998. The radial velocity semiamplitude of the white dwarf (33.8+/-2.5 km s-1) and corresponding mass function (f(M) = 5.5+/-1.2×10-4 Msolar) were derived from the motion of the emission components of Balmer lines. The mass ratio q(~0.315) was evaluated from the fractional period excess of the superhump period over the orbital period ɛ(~0.085), and a secondary mass range (0.18-0.38 Msolar) was estimated from the orbital period. Therefore, the white dwarf mass range is 0.57-1.2 Msolar and the inclination angle of the system to the line of sight is 17-22.5 degrees. The adopted distance to the system is 335+/-50 pc. To fit the observed SED it is necessary to add a thermal spectrum with T~11600 K and luminosity ~0.4 Ld to the accretion disc spectrum. This combined spectrum successfully describes the observed Balmer lines absorption components. Formally the best fit of the HeI 4471 line gives minimum masses of the components (MRD = 0.18 Msolar and (MWD = 0.57 Msolar), with the corresponding inclination angle i = 22.°1 and mass-accretion rate M = 2.6×1017 g s-1.
- Publication:
-
17th European White Dwarf Workshop
- Pub Date:
- November 2010
- DOI:
- 10.1063/1.3527837
- arXiv:
- arXiv:1010.0191
- Bibcode:
- 2010AIPC.1273..342B
- Keywords:
-
- spectral analysis;
- photometry;
- white dwarfs;
- velocity measurement;
- chemical analysis;
- 96.50.sb;
- 95.75.De;
- 97.20.Rp;
- 06.30.Gv;
- 98.62.Bj;
- Composition energy spectra and interactions;
- Photography and photometry;
- Faint blue stars white dwarfs degenerate stars nuclei of planetary nebulae;
- Velocity acceleration and rotation;
- Chemical composition and chemical evolution;
- Astrophysics - Solar and Stellar Astrophysics
- E-Print:
- 4 pages, 3 figures, conference "European White Dwarf Workshop, 2010", Tuebingen, Germany