English

Low Temperature Opacities

Astrophysics 2009-11-10 v1

Abstract

Previous computations of low temperature Rosseland and Planck mean opacities from Alexander & Ferguson (1994) are updated and expanded. The new computations include a more complete equation of state with more grain species and updated optical constants. Grains are now explicitly included in thermal equilibrium in the equation of state calculation, which allows for a much wider range of grain compositions to be accurately included than was previously the case. The inclusion of high temperature condensates such as Al2_2O3_3 and CaTiO3_3 significantly affects the total opacity over a narrow range of temperatures before the appearance of the first silicate grains. The new opacity tables are tabulated for temperatures ranging from 30000 K to 500 K with gas densities from 104^{-4} g cm3^{-3} to 1019^{-19} g cm3^{-3}. Comparisons with previous Rosseland mean opacity calculations are discussed. At high temperatures, the agreement with OPAL and Opacity Project is quite good. Comparisons at lower temperatures are more divergent as a result of differences in molecular and grain physics included in different calculations. The computation of Planck mean opacities performed with the opacity sampling method are shown to require a very large number of opacity sampling wavelength points; previously published results obtained with fewer wavelength points are shown to be significantly in error. Methods for requesting or obtaining the new tables are provided.

Keywords

Cite

@article{arxiv.astro-ph/0502045,
  title  = {Low Temperature Opacities},
  author = {Jason W. Ferguson and David R. Alexander and France Allard and Travis Barman and Julia G. Bodnarik and Peter H. Hauschildt and Amanda Heffner-Wong and Akemi Tamanai},
  journal= {arXiv preprint arXiv:astro-ph/0502045},
  year   = {2009}
}

Comments

39 pages with 12 figures. To be published in ApJ, April 2005