Study of electron density in planetary nebulae

Copetti, M. V. F.; Writzl, B. C.

doi:10.1051/0004-6361:20011621

Cited by 44 publications

(56 citation statements)

References 48 publications

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“…On the other hand, a very different result was obtained by Meatheringham & Dopita (1991) Aller et al 1996;Feibelman et al 1994Feibelman et al , 1996Hyung 1994;Hyung & Aller 1995a,b, 1996, 1997a,b, 1998Hyung et al 1993Hyung et al , 1994aHyung et al ,b,c, 1995Hyung et al , 1997Hyung et al , 1999aHyung et al ,b, 2000Hyung et al , 2001Keyes et al 1990;Keenan et al 1993Keenan et al , 1996Keenan et al , 1997 they determined simultaneously electron densities and temperatures using a number of plasma diagnostic lines in the optical and ultraviolet and found that overall the data yielded compatible and consistent results. More recently, Copetti & Writzl (2002), using data published in the literature, compared the observed line ratios for a number of density-diagnostics, instead of densities deduced from them, thus avoiding discarding measurements that yield ratios close to or beyond the the low-or high-N e limits. They concluded that in general N e ([N i] Copetti & Writzl (2002) failed to find evidence in support of the result of McLaughlin & Bell (1998).…”

Section: Introductionmentioning

confidence: 99%

“…More recently, Copetti & Writzl (2002), using data published in the literature, compared the observed line ratios for a number of density-diagnostics, instead of densities deduced from them, thus avoiding discarding measurements that yield ratios close to or beyond the the low-or high-N e limits. They concluded that in general N e ([N i] Copetti & Writzl (2002) failed to find evidence in support of the result of McLaughlin & Bell (1998).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

A reexamination of electron density diagnostics for ionized gaseous nebulae

Wang¹,

Liu²,

Zhang³

et al. 2004

A&A

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Abstract. We present a comparison of electron densities derived from optical forbidden line diagnostic ratios for a sample of over a hundred nebulae. We consider four density indicators, theand [Ar ] λ4711/λ4740 doublet ratios. Except for a few H  regions for which data from the literature were used, diagnostic line ratios were derived from our own high quality spectra. For the [O ] λ3729/λ3726 doublet ratio, we find that our default atomic data set, consisting of transition probabilities from Zeippen (1982)

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A reexamination of electron density diagnostics for ionized gaseous nebulae

Wang¹,

Liu²,

Zhang³

et al. 2004

A&A

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“…A flag of warning must be raised, however, in regard to neutral species and ions with ionization potentials below that of hydrogen because their spectra could be affected by photo-excitation by continuum radiation. Such is the case of N i (Bautista 1999) that Copetti & Writzl (2002) tried to analyze on the same grounds as ionized species.…”

Section: Discussionmentioning

confidence: 99%

Atomic processes in planetary nebulae

Bautista

2006

IAU

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Abstract. Historically, Planetary Nebula research has been a ground for much development in atomic physics. In the last five years the combination of a generation of powerful observatories, the development of ever more sophisticated spectral modeling codes, and important efforts on mass production of high quality atomic data have led to important progress in our understanding of the atomic spectra of PNe. In this paper I review such progress, including identification of heavy species (beyond the iron peak elements), observations of hyperfine emission lines and analysis of isotopic abundances, fluorescent processes, and new techniques for diagnosing physical conditions based on recombination spectra. Finally I discuss the new trends on the research of atomic processes in PNe.

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“…This result, if confirmed, would have a profound significant effect on nebular studies, especially N e determinations for low surface brightness H  regions which typically have very low electron densities. The extensive literature survey by Copetti & Writzl (2002) failed to find evidence in support of the result of McLaughlin & Bell (1998).…”

Section: Introductionmentioning

confidence: 97%

“…Using high resolution spectroscopic data obtained with an echelle spectrograph, mostly by the group led by Aller Aller et al 1996;Feibelman et al 1994Feibelman et al , 1996Hyung 1994;Hyung & Aller 1995a,b, 1996, 1997a,b, 1998Hyung et al 1993Hyung et al , 1994aHyung et al ,b,c, 1995Hyung et al , 1997Hyung et al , 1999aHyung et al ,b, 2000Hyung et al , 2001Keyes et al 1990;Keenan et al 1993Keenan et al , 1996Keenan et al , 1997 they determined simultaneously electron densities and temperatures using a number of plasma diagnostic lines in the optical and ultraviolet and found that overall the data yielded compatible and consistent results. More recently, Copetti & Writzl (2002), using data published in the literature, compared the observed line ratios for a number of density-diagnostics, instead of densities deduced from them, thus avoiding discarding measurements that yield ratios close to or beyond the the low-or high-N e limits. They concluded that in general N e ([N i] At low plasma densities, each collisional excitation by electron impact leads to the emission of a photon.…”

Section: Introductionmentioning

confidence: 99%