Xw-W. Liu scite author profile

Xw-W. Liu

3Publications

40Citation Statements Received

88Citation Statements Given

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King University, Peking University

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Unravelling the chemical inhomogeneity of PNe with VLT FLAMES integral-field unit spectroscopy

Tsamis

Walsh

Pequignot

et al. 2006

IAU

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Abstract. Recent weak emission-line long-slit surveys and modelling studies of PNe have convincingly argued in favour of the existence of an unknown component in the planetary nebula plasma consisting of cold, hydrogen-deficient gas, as an explanation for the long-standing recombination-line versus forbidden-line temperature and abundance discrepancy problems. Here we describe the rationale and initial results from a detailed spectroscopic study of three Galactic PNe undertaken with the VLT FLAMES integral-field unit spectrograph, which advances our knowledge about the small-scale physical properties, chemical abundances and velocity structure of these objects across a two-dimensional field of view, and opens up for exploration an uncharted territory in the study and modelling of PNe and photoionized nebulae in general.

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bHROS high spectral resolution observations of PN forbidden and recombination line profiles

Barlow

Hales

Storey

et al. 2006

IAU

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Abstract. We have acquired high spectral resolution observations (R=150,000) of the planetary nebulae NGC 7009 and NGC 6153, using bHROS on Gemini South. Observations of this type may provide a key to understanding why optical recombination lines (ORLs) yield systematically higher heavy element abundances for photoionized nebulae than do the classical forbidden collisionally excited lines (CELs) emitted by the same ions; NGC 7009 and NGC 6153 have notably high ORL/CEL abundance discrepancy factors (ADFs) of 5 and 10, respectively. Due to the opposite temperature dependences of ORLs and CELs, ORLs should be preferentially emitted by colder plasma.

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A Reexamination of Electron Density Diagnostics for Ionized Gaseous Nebulae

Wang

Liu

Zhang

et al.

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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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Xw-W. Liu

Unravelling the chemical inhomogeneity of PNe with VLT FLAMES integral-field unit spectroscopy

bHROS high spectral resolution observations of PN forbidden and recombination line profiles

A Reexamination of Electron Density Diagnostics for Ionized Gaseous Nebulae

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