Plasma diagnostics and abundance determinations for PNe -- current status
X.-W. Liu
Department of Astronomy, Peking University,
Zhong Guan Cun, Hai Dian Qu, Beijing 100871, P. R. China
Deep, medium resolution optical spectrophotometry has been
carried out for several dozens PNe, allowing plasma diagnostics and abundance
determinations using weak nebular continuum emission and optical recombination
lines (ORLs) emitted by helium and heavy element ions following captures of
electrons. Comparison with values deduced using the traditional method based on
collisionally excited lines (CELs) shows that the long debated disparities,
whereby electron temperature derived from the hydrogen recombination spectrum
Balmer discontinuity is systematically lower than that deduced from the
collisionally excited [OIII] nebular to auroral forbidden line ratio and
whereby heavy element abundances relative to hydrogen deduced from ORLs are
systematically higher than the corresponding values determined from CELs, are
ubiquitous.
Many of these nebulae have also been observed in the mid- and far-IR using the
Infrared Space Observatory (ISO), giving access to fine-structure lines (FSLs),
which have been crucial to discriminate various scenarios proposed to explain
the aforementioned disparities, including temperature fluctuations, density
inhomogeneities and abundance variations.
In this talk I will summarize observational results and show that both
temperature fluctuations and density inhomogeneities fail to explain all the
observations and that there is direct observational evidence pointing to the
presence of a new component of ionized gas, cold and highly enriched in helium
and heavy elements, embedded in the main body of the nebulae.