Line ratios from shocked cloudlets in planetary nebulae

Raga, A. C.; Riera, A.; Mellema, Garrelt; Esquivel, A.; Velázquez, P. F.

doi:10.1051/0004-6361:20079157

Cited by 52 publications

(95 citation statements)

References 21 publications

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“…ner gap and elongation in the N-S direction closely mirrors the elliptical shape and cross-section of the gap in Model A. We interpret the ionisation structure of the 'ears' or 'multiple-shells' referred to by previous authors as shocked outflows similar to IC 4634 and M 3-16 (Raga et al 2008; Sec. 4.5.1).…”

Section: K 1-2supporting

confidence: 81%

“…These features are well-reproduced by models as fastmoving photo-ionised neutral clumps (Raga et al 2008). The [NII] image of M 3-16 also reveals low-ionisation filaments and some knots which do not display the same high degree of point symmetry as in IC 4634.…”

Section: -16mentioning

confidence: 55%

“…Observationally K 1-2 and M 3-16 fit the model with the signature 'reverse bow-shock' ionisation structure in their polar outflows (e.g. IC 4634, Raga et al 2008). The counterparts in e.g.…”

Section: A Binary Formation Scenario For Low-ionisation Structuresmentioning

confidence: 70%

“…Raga, Steffen & González 2005). Polar outflows are better described by fast-moving neutral material interacting again with a photo-ionising wind (Raga et al 2007(Raga et al , 2008. Observationally K 1-2 and M 3-16 fit the model with the signature 'reverse bow-shock' ionisation structure in their polar outflows (e.g.…”

Section: A Binary Formation Scenario For Low-ionisation Structuresmentioning

confidence: 88%

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Binary planetary nebulae nuclei towards the Galactic bulge

Miszalski

Acker

Parker

et al. 2009

A&A

147

218

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Considerable effort has been applied towards understanding the precise shaping mechanisms responsible for the diverse range of morphologies exhibited by planetary nebulae (PNe). A binary companion is increasingly gaining support as a dominant shaping mechanism, however morphological studies of the few PNe that we know for certain were shaped by binary evolution are scarce or biased. Newly discovered binary central stars (CSPN) from the OGLE-III photometric variability survey have significantly increased the sample of post common-envelope (CE) nebulae available for morphological analysis. We present Gemini South narrow-band images for most of the new sample to complement existing data in a qualitative morphological study of 30 post-CE nebulae. Nearly 30% of nebulae have canonical bipolar morphologies, however this rises to 60% once inclination effects are incorporated with the aid of geometric models. This is the strongest observational evidence yet linking CE evolution to bipolar morphologies. A higher than average proportion of the sample shows low-ionisation knots, filaments or jets suggestive of a binary origin. These features are also common around emission-line nuclei which may be explained by speculative binary formation scenarios for H-deficient CSPN.

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Section: K 1-2supporting

confidence: 81%

Section: -16mentioning

confidence: 55%

Section: A Binary Formation Scenario For Low-ionisation Structuresmentioning

confidence: 70%

Section: A Binary Formation Scenario For Low-ionisation Structuresmentioning

confidence: 88%

See 2 more Smart Citations

Binary planetary nebulae nuclei towards the Galactic bulge

Miszalski

Acker

Parker

et al. 2009

A&A

147

218

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“…These diagrams also give information on the excitation mechanism (photoionization, shock excitation or mixed). In this figure we have adapted these diagrams including the most recent compilation of HH objects (Raga et al 1996), a sample of proto-PNe (Raga et al 2008) and the irradiated shock models from the work of Raga et al (2008). The PN region is adopted from Riesgo & López (2006 Raga et al 1996) are shown as black dots.…”

Section: Intrinsic Emission: Emission Line Ratios and Nebular Diagnosmentioning

confidence: 99%

STIS optical spectroscopy of the lobes of CRL 618

Riera

Raga

Velázquez

et al. 2011

A&A

Self Cite

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Context. Many proto-planetary nebulae show collimated structures sometimes showing multiple outflows. Aims. We present the results of new optical spectroscopic observations (both medium (with a dispersion of 0.56 Å pixel −1 ) and low (2.73 and 4.92 Å pixel −1 for the G430L and G750L gratings) spectral resolution) of the lobes of the proto-planetary nebula CRL 618 obtained with the Space Telescope Imaging Spectrograph on board of the Hubble Space Telescope. Methods. We analyse the density structure and the excitation conditions of the lobes of CRL 618. The spectra obtained at medium spectral resolution (∼50 km s −1 ) allow us to quote the fraction of unscattered (intrinsic) Hα emission. We have also obtained dereddened emission line ratios of several features from the low spectral resolution spectra. Results. We find that most of the analysed line ratios are reproduced by planar shocks moving through a dense medium (with preshock densities ∼10 4 cm −3 ) with shock velocities from 30 to 40 km s −1 (except the [O III]/Hβ line ratios which require shock velocities of 80 to 90 km s −1 ). We find that the [S II]-weighted ionization fraction ranges from 0.015 to 0.06. The total densities derived from the electron density and the ionization fraction are ∼10 5 to 10 6 cm −3 . Conclusions. We conclude that the spectra of the lobes of CRL 618 can be margially reproduced by steady plane-parallel shock models for shock velocities which are significantly lower than the velocities at which the jet moves outwards (∼200 km s −1 ). These results are consistent with the predictions of a jet with a variable ejection velocity. The mirror-symmetry, the luminosity asymmetry between both lobes and the ejection velocity variability suggest that its central source may host a binary system.

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