We analyze resolved stellar near-infrared photometry of 21Hubble Space Telescope(HST)fields in M31 to constrain the impact of metallicity on the formation of carbon stars. Observations of nearby galaxies show that carbon stars are increasingly rare at higher metallicity. Models indicate that carbon star formation efficiency drops due to the decrease in dredge-up efficiency in metal-rich thermally pulsing Asymptotic Giant Branch(TP-AGB)stars, coupled to a higher initial abundance of oxygen. However, while models predict a metallicity ceiling above which carbon stars cannot form, previous observations have not yet pinpointed this limit. Our new observations reliably separate carbon stars from M-type TP-AGB stars across 2.6–13.7 kpc of M31ʼs metal-rich disk usingHSTWFC3/IR medium-band filters. We find that the ratio of C to M stars(C/M)decreases more rapidly than extrapolations of observations in more metal-poor galaxies, resulting in a C/M that is too low by more than a factorof 10 in the innermost fields and indicating a dramatic decline in C star formation efficiency at metallicities higher than [M/H]~−0.1 dex. The metallicity ceiling remains undetected, but must occur at metallicities higher than what is measured in M31ʼs inner disk([M/H]~+0.06 dex).

A Dramatic Decrease in Carbon Star Formation in M31

BOYER, MARTHA LINN;Aringer B.;Chen Y.;Girardi L.;Marigo P.;Rosenfield P.;
2019

Abstract

We analyze resolved stellar near-infrared photometry of 21Hubble Space Telescope(HST)fields in M31 to constrain the impact of metallicity on the formation of carbon stars. Observations of nearby galaxies show that carbon stars are increasingly rare at higher metallicity. Models indicate that carbon star formation efficiency drops due to the decrease in dredge-up efficiency in metal-rich thermally pulsing Asymptotic Giant Branch(TP-AGB)stars, coupled to a higher initial abundance of oxygen. However, while models predict a metallicity ceiling above which carbon stars cannot form, previous observations have not yet pinpointed this limit. Our new observations reliably separate carbon stars from M-type TP-AGB stars across 2.6–13.7 kpc of M31ʼs metal-rich disk usingHSTWFC3/IR medium-band filters. We find that the ratio of C to M stars(C/M)decreases more rapidly than extrapolations of observations in more metal-poor galaxies, resulting in a C/M that is too low by more than a factorof 10 in the innermost fields and indicating a dramatic decline in C star formation efficiency at metallicities higher than [M/H]~−0.1 dex. The metallicity ceiling remains undetected, but must occur at metallicities higher than what is measured in M31ʼs inner disk([M/H]~+0.06 dex).
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Utilizza questo identificativo per citare o creare un link a questo documento: http://hdl.handle.net/11577/3309158
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