Bibcode
Castro, N.; Fossati, L.; Langer, N.; Simón-Díaz, S.; Schneider, F. R. N.; Izzard, R. G.
Referencia bibliográfica
Astronomy and Astrophysics, Volume 570, id.L13, 5 pp.
Fecha de publicación:
10
2014
Revista
Número de citas
112
Número de citas referidas
97
Descripción
The distribution of stars in the Hertzsprung-Russell diagram narrates
their evolutionary history and directly assesses their properties.
Placing stars in this diagram however requires the knowledge of their
distances and interstellar extinctions, which are often poorly known for
Galactic stars. The spectroscopic Hertzsprung-Russell diagram (sHRD)
tells similar evolutionary tales, but is independent of distance and
extinction measurements. Based on spectroscopically derived effective
temperatures and gravities of almost 600 stars, we derive for the first
time the observational distribution of Galactic massive stars in the
sHRD. While biases and statistical limitations in the data prevent
detailed quantitative conclusions at this time, we see several clear
qualitative trends. By comparing the observational sHRD with different
state-of-the-art stellar evolutionary predictions, we conclude that
convective core overshooting may be mass-dependent and, at high mass
(≳15 M⊙), stronger than previously thought.
Furthermore, we find evidence for an empirical upper limit in the sHRD
for stars with Teff between 10 000 and 32 000 K and, a
strikingly large number of objects below this line. This over-density
may be due to inflation expanding envelopes in massive main-sequence
stars near the Eddington limit.
Appendix A is available in electronic form at http://www.aanda.org
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Massive stars has been many times claimed as Cosmic Engines and Gifts of Nature for the study of the Universe, from the Solar neighbourhood to the large-z Universe. The complete understanding of the physical properties and evolution of massive stars (and their interplay with the ISM) is crucial for many fields of Astrophysics and, ultimately, to
Sergio
Simón Díaz