On the production of He, C, and N by low- and intermediate-mass stars: a comparison of observed and model-predicted planetary nebula abundances

Henry, R. B. C.; Stephenson, Brian; Bertolami, M. M. Miller; Kwitter, K. B.; Balick, Bruce

doi:10.1093/mnras/stx2286

Cited by 29 publications

(28 citation statements)

References 68 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This result indicates that studies that aim to link AGB or PNe abundances to the initial stellar progenitor masses, or ages of the host population, should rely on stellar models that include CBM at all pre-AGB phases. This is in agreement with recent hints of HBB taking place in stars with initial masses as low as M ZAMS ∼ 3M (Henry et al 2018;Fang et al 2018;Davis et al 2019).…”

Section: Discussionsupporting

confidence: 93%

“…Overall the effect of including additional CBM during core burning phases can play a significant role in changing the outcome of TP-AGB calculations, and given the evidence in favour of the existence of CBM during the core burning stages this effect needs to be addressed. This evidence is also reinforced by the recent hints of the existence of HBB in stars with initial masses as low as M ZAMS ∼ 3M (Henry et al 2018;Fang et al 2018;Davis et al 2019).…”

Section: Third Dredge-upmentioning

confidence: 63%

See 1 more Smart Citation

Impact of convective boundary mixing on the TP-AGB

Wagstaff

Bertolami

Weiß

2020

Monthly Notices of the Royal Astronomical Society

View full text Add to dashboard Cite

The treatment of convective boundaries remains an important source of uncertainty within stellar evolution, with drastic implications for the thermally-pulsing stars on the Asymptotic Giant Branch (AGB). Various sources are taken as motivation for the incorporation of convective boundary mixing during this phase, from s-process nucleosynthesis to hydrodynamical models. In spite of the considerable evidence in favour of the existence of convective boundary mixing on the pre-AGB evolution, this mixing is not universally included in models of TP-AGB stars. The aim of this investigation is to ascertain the extent of convective boundary mixing, which is compatible with observations when considering full evolutionary models. Additionally, we investigate a theoretical argument that has been made that momentum-driven overshooting at the base of the pulse-driven convection zone should be negligible. We show that, while the argument holds, it would similarly limit mixing from the base of the convective envelope. On the other hand, estimations based on the picture of turbulent entrainment suggest that mixing is possible at both convective boundaries. We demonstrate that additional mixing at convective boundaries during core-burning phases prior to the thermally-pulsing Asymptotic Giant Branch has an impact on the later evolution, changing the mass range at which the third dredge-up and hot-bottom burning occur, and thus also the final surface composition. In addition, an effort has been made to constrain the efficiency of convective boundary mixing at the different convective boundaries, using observational constraints. Our study suggests a strong tension between different constraints that makes it impossible to reproduce all observables simultaneously within the framework of an exponentially decaying overshooting. This result calls for a reassessment of both the models of convective boundary mixing and the observational constraints.

show abstract

Section: Discussionsupporting

confidence: 93%

Section: Third Dredge-upmentioning

confidence: 63%

Impact of convective boundary mixing on the TP-AGB

Wagstaff

Bertolami

Weiß

2020

Monthly Notices of the Royal Astronomical Society

View full text Add to dashboard Cite

show abstract

“…There is evidence that nucleosynthetic processing by low-and intermediate-mass stars does not alter the alpha abundances, but does enhance He, N and C abundances compared to typical H ii regions (Karakas 2010;Maciel et al 2017). We enhance C and N relative to O following Henry et al (2018): log 10 (N/O) = −0.5 and log 10 (C/O) = 0 for the α-enhanced 12 + log O/H = 8.89.…”

Section: Stellar and Gas Phase Abundancesmentioning

confidence: 99%

Self-consistent Predictions for LIER-like Emission Lines from Post-AGB Stars

Byler

Dalcanton

Conroy

et al. 2019

View full text Add to dashboard Cite

Early type galaxies (ETGs) frequently show emission from warm ionized gas. These Low Ionization Emission Regions (LIERs) were originally attributed to a central, lowluminosity active galactic nuclei. However, the recent discovery of spatially-extended LIER emission suggests ionization by both a central source and an extended component that follows a stellar-like radial distribution. For passively-evolving galaxies with old stellar populations, hot post-Asymptotic Giant Branch (AGB) stars are the only viable extended source of ionizing photons. In this work, we present the first prediction of LIER-like emission from post-AGB stars that is based on fully self-consistent stellar evolution and photoionization models. We show that models where post-AGB stars are the dominant source of ionizing photons reproduce the nebular emission signatures observed in ETGs, including LIER-like emission line ratios in standard optical diagnostic diagrams and Hα equivalent widths of order 0.1 − 3Å. We test the sensitivity of LIERlike emission to the details of post-AGB models, including the mass loss efficiency and convective mixing efficiency, and show that line strengths are relatively insensitive to post-AGB timescale variations. Finally, we examine the UV-optical colors of the models and the stellar populations responsible for the UV-excess observed in some ETGs. We find that allowing as little as 3% of the HB population to be uniformly distributed to very hot temperatures (30,000 K) produces realistic UV colors for old, quiescent ETGs.

show abstract

“…The enrichments for NGC 7027 are consistent with a progenitor initial mass of around 3±0.5M e as estimated by Zhang et al (2005) and other studies (see Sterling et al 2016, for references). The Kr enrichment of IC 418 suggests a lower mass for its progenitor star, which has been estimated as M= 1.75 M e (Morisset & Georgiev 2009) and as M = 1.4± 0.5 M e (Henry et al 2018).…”

Section: Comparison To Theoretical Models Of Agb Evolutionmentioning

confidence: 99%

Neutron-capture Elements in Planetary Nebulae: First Detections of Near-infrared [Te iii] and [Br v] Emission Lines* ^†

Madonna

Bautista

Dinerstein

et al. 2018

ApJL

View full text Add to dashboard Cite

We have identified two new near-infrared (NIR) emission lines in the spectra of planetary nebulae arising from heavy elements produced by neutron-capture reactions: . We also derive ionic abundances of other neutron-capture elements detected in the NIR spectra, and estimate total elemental abundances of Se, Br, Kr, Rb, and Te after correcting for unobserved ions. Comparison of our derived enrichments to theoretical predictions from asymptotic giant branch (AGB) evolutionary models shows reasonable agreement for solar metallicity progenitor stars of ∼2-4 M e . The spectrally isolated [Br V] 1.6429 μm line has advantages for determining nebular Br abundances over optical [Br III] emission lines that can be blended with other features. Finally, measurements of Te are of special interest because this element lies beyond the first peak of the s-process, and thus provides new leverage on the abundance pattern of trans-iron species produced by AGB stars.

show abstract

On the production of He, C, and N by low- and intermediate-mass stars: a comparison of observed and model-predicted planetary nebula abundances

Cited by 29 publications

References 68 publications

Impact of convective boundary mixing on the TP-AGB

Impact of convective boundary mixing on the TP-AGB

Self-consistent Predictions for LIER-like Emission Lines from Post-AGB Stars

Neutron-capture Elements in Planetary Nebulae: First Detections of Near-infrared [Te iii] and [Br v] Emission Lines* ^†

Contact Info

Product

Resources

About

On the production of He, C, and N by low- and intermediate-mass stars: a comparison of observed and model-predicted planetary nebula abundances

Cited by 29 publications

References 68 publications

Impact of convective boundary mixing on the TP-AGB

Impact of convective boundary mixing on the TP-AGB

Self-consistent Predictions for LIER-like Emission Lines from Post-AGB Stars

Neutron-capture Elements in Planetary Nebulae: First Detections of Near-infrared [Te iii] and [Br v] Emission Lines* †

Contact Info

Product

Resources

About

Neutron-capture Elements in Planetary Nebulae: First Detections of Near-infrared [Te iii] and [Br v] Emission Lines* ^†