by J. B. Tatum
A course on stellar atmospheres which covers: definitions of and relations between quantities used in radiation theory, blackbody radiation, the exponential integral function, flux, specific intensity and other astrophysical terms, absorption, scattering, extinction and the equation of transfer, limb darkening, atomic spectroscopy, Boltzmann's and Saha's equations, oscillator strengths and related topics, line profiles, curve of growth.
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by Eric Gourgoulhon - arXiv
These notes introduce the theory of rotating stars in general relativity. The focus is on the theoretical foundations, with a detailed discussion of the spacetime symmetries, the choice of coordinates and the derivation of the equations of structure.
by James Schombert - University of Oregon
This course studies the birth, evolution and death of stars in our galaxy, emphasizing the underlying science behind stellar and galactic evolution, the observational aspect and our knowledge of how the Universe operates on the stellar scale.
by Jonathan Katz - The Benjamin/Cummings Publishing
This book describes the methods and results of modern astrophysical phenomenology and modelling for advanced undergraduates or beginning graduate students. It is meant to be explanatory and expository, rather than complete or definitive.
- Rice University
This 1400+ pages book covers the very rapidly growing area of star-and-planet formation and evolution, from astrophysics to planetary science. It is most useful for researchers, graduate students, and some undergraduate students.