Bibcode
Peimbert, M.; Torres-Peimbert, S.; Luridiana, V.
Referencia bibliográfica
Revista Mexicana de Astronomia y Astrofisica, Vol. 31, No. 2, p. 131 - 142
Fecha de publicación:
10
1995
Número de citas
64
Número de citas referidas
46
Descripción
By combining the C III λλ1906+1909 with the C II
λ4267 line intensities it is possible to determine
T(C++); this temperature is, in general, considerably smaller
than T(O++), the temperature derived from the O III
λ4363 to λ5007 intensity ratio. The authors study possible
causes for this difference. They show that in the presence of spatial
temperature fluctuations T(C++) < T(O++). The
authors find that the objects with the highest
T(O++)-T(C++) values are those that show large
velocities and complex velocity fields, therefore they suggest that the
deposition of mechanical energy by the stellar winds of PNe is mainly
responsible for the temperature differences. Based on these arguments
and the similar T(C++), the Balmer continuum temperature and
T(He I) values, obtained for well observed objects, the authors propose
that the N(C++)/N(H+) and
N(O++)/N(H+) values derived from the ratio of
collisionally excited lines to Hβ should be based on
T(C++) instead of T(O++); alternatively the
abundance ratios derived from recombination line intensity ratios are
almost independent of the adopted temperature, and consequently are more
reliable.