Your search keyword '"Moehler, S."' showing total 5 results

1. Hot UV-bright stars of galactic globular clusters.

Author

Moehler, S., Landsman, W. B., Lanz, T., and Miller Bertolami, M. M.

Subjects

*WHITE dwarf stars, *EARLY stars, *GLOBULAR clusters, *ASYMPTOTIC giant branch stars, *STAR clusters, *STELLAR spectra

Abstract

Context. We have performed a census of the UV-bright population in 78 globular clusters using wide-field UV telescopes. This population includes a variety of phases of post-horizontal branch (HB) evolution, including hot post-asymptotic giant branch (AGB) stars, and post-early AGB stars. There are indications that old stellar systems like globular clusters produce fewer post-(early) AGB stars than currently predicted by evolutionary models, but observations are still scarce. Aims. We wish to derive effective temperatures, surface gravities, and helium abundances of the luminous hot UV-bright stars in these clusters to determine their evolutionary status and compare the observed numbers to predictions from evolutionary theory. Methods. We obtained FORS2 spectroscopy of eleven of these UV-selected objects (covering a range of −2.3 <  [Fe/H] <  −1.0), which we (re-)analysed together with previously observed data. We used model atmospheres of different metallicities, including super-solar ones. Where possible, we verified our atmospheric parameters using UV spectrophotometry and searched for metal lines in the optical spectra. We calculated evolutionary sequences for four metallicity regimes and used them together with information about the HB morphology of the globular clusters to estimate the expected numbers of post-AGB stars. Results. We find that metal-rich model spectra are required to analyse stars hotter than 40 000 K. Seven of the eleven new luminous UV-bright stars are post-AGB or post-early AGB stars, while two are evolving away from the HB, one is a foreground white dwarf, and another is a white dwarf merger. Taking into account published information on other hot UV-bright stars in globular clusters, we find that the number of observed hot post-AGB stars generally agrees with the predicted values, although the numbers are still low. Conclusions. Spectroscopy is clearly required to identify the evolutionary status of hot UV-bright stars. For hotter stars, metal-rich model spectra are required to reproduce their optical and UV spectra, which may affect the flux contribution of hot post-AGB stars to the UV spectra of evolved populations. While the observed numbers of post-AGB and post-early AGB stars roughly agree with the predictions, our current comparison is affected by low number statistics. [ABSTRACT FROM AUTHOR]

Published

2019

2. Hot horizontal branch stars in NGC288 - effects of diffusion and stratification on their atmospheric parameters (Corrigendum).

Author

Moehler, S., Dreizler, S., LeBlanc, F., Khalack, V., Michaud, G., Richer, J., Sweigart, A. V., and Grundahl, F.

Subjects

*HORIZONTAL branch stars, *STELLAR mass, *EARLY stars

Abstract

We found that the script to determine the masses of the stars contains two errors. This script and a related one have been used to determine masses of globular cluster stars and distances to field stars in 12 papers published between 1990 and 2014. While the numerical values need to be revised none of the conclusions are affected. We provide the updated numerical values and figures for all 12 publications here. In addition we describe the effects on those refereed publications that used the distances to the field stars. [ABSTRACT FROM AUTHOR]

Published

2017

3. Hot horizontal branch stars in NGC288 – effects of diffusion and stratification on their atmospheric parameters.

Author

Moehler, S., Dreizler, S., LeBlanc, F., Khalack, V., Michaud, G., Richer, J., Sweigart, A. V., and Grundahl, F.

Subjects

*HORIZONTAL branch stars, *EARLY stars, *STELLAR atmospheres, *DIFFUSION, *ASTRONOMICAL photometry

Abstract

Context. NGC288 is a globular cluster with a well-developed blue horizontal branch (HB) covering the u-jump that indicates the onset of diffusion. It is therefore well suited to study the effects of diffusion in blue HB stars. Aims. We compare observed abundances with predictions from stellar evolution models calculated with diffusion and from stratified atmospheric models.We verify the effect of using stratified model spectra to derive atmospheric parameters. In addition, we investigate the nature of the overluminous blue HB stars around the u-jump. Methods. We defined a new photometric index sz from uvby measurements that is gravity-sensitive between 8000 K and 12 000 K. Using medium-resolution spectra and Strömgren photometry, we determined atmospheric parameters (Teff, logg) and abundances for the blue HB stars. We used both homogeneous and stratified model spectra for our spectroscopic analyses. Results. The atmospheric parameters and masses of the hot HB stars in NGC288 show a behaviour seen also in other clusters for temperatures between 9000 K and 14 000K. Outside this temperature range, however, they instead follow the results found for such stars in ωCen. The abundances derived from our observations are for most elements (except He and P) within the abundance range expected from evolutionary models that include the effects of atomic diffusion and assume a surface mixed mass of 10−7 M. The abundances predicted by stratified model atmospheres are generally significantly more extreme than observed, except for Mg. When effective temperatures, surface gravities, and masses are determined with stratified model spectra, the hotter stars agree better with canonical evolutionary predictions. Conclusions. Our results show definite promise towards solving the long-standing problem of surface gravity and mass discrepancies for hot HB stars, but much work is still needed to arrive at a self-consistent solution. [ABSTRACT FROM AUTHOR]

Published

2014

4. An MK-like system of spectral classification for hot subdwarfs.

Author

Drilling, J. S., Jeffery, C. S., Heber, U., Moehler, S., and Napiwotzki, R.

Subjects

DWARF stars, HELIUM, EARLY stars, GRAVITY, TEMPERATURE of stars, HYDROGEN, ATMOSPHERE

Abstract

An MK (Morgan-Keenan)-like system of spectral classification for hot subdwarfs is presented. We find that a three-dimensional spectral type, consisting of a "spectral" class, a "luminosity" class, and a "helium" class, is necessary to classify the sdO (subdwarf O) and sdB (subdwarf B) stars. In addition, the helium-strong stars appear to form two parallel spectral sequences: one showing strong lines of CII, CIII, or CIV, and the other with these same lines weak or absent. We also give a preliminary calibration of the new spectral types in terms of effective temperature, surface gravity, and surface helium-to-hydrogen abundance ratio, and show the relation between the new spectral types and the natural groups defined by the Palomar-Green (PG) survey. [ABSTRACT FROM AUTHOR]

Published

2013

5. Helium-rich EHB Stars in Globular Clusters.

Author

Moehler, S., Sweigart, A.V., Landsman, W.B., and Dreizler, S.

Subjects

*GLOBULAR clusters, *STELLAR populations, *EARLY stars, *STELLAR evolution, *STELLAR luminosity function, *STELLAR atmospheres

Abstract

Recent UV observations of the most massive Galactic globular clusters show a significant population of hot stars below the zero-age HB (“blue hook” stars), which cannot be explained by canonical stellar evolution. Stars which suffer unusually large mass loss on the red giant branch and thus experience the helium-core flash while descending the white dwarf cooling curve could populate this region. They should show higher temperatures than the hottest canonical HB stars and their atmospheres should be helium-rich and probably C/N-rich. We have obtained spectra of blue hook stars in ω Cen and NGC 2808 to test this possibility. Our analysis shows that the blue hook stars in these clusters reach effective temperatures well beyond the hot end of the canonical EHB and have higher helium abundances than canonical EHB stars. These results support the hypothesis that the blue hook stars arise from stars which ignite helium on the white dwarf cooling curve. [ABSTRACT FROM AUTHOR]

Published

2004