Your search keyword '"Fagas, M."' showing total 7 results

1. Interplay between pulsations and mass loss in the blue supergiant 55 Cygnus = HD 198478

Author

Kraus, M., Haucke, M., Cidale, L. S., Venero, R. O. J., Nickeler, D. H., Nemeth, P., Niemczura, E., Tomic, S., Aret, A., Kubat, J., Kubatova, B., Oksala, M. E., Cure, M., Kaminski, K., Dimitrov, W., Fagas, M., and Polinska, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Blue supergiant stars are known to display photometric and spectroscopic variability that is suggested to be linked to stellar pulsations. Pulsational activity in massive stars strongly depends on the star's evolutionary stage and is assumed to be connected with mass-loss episodes, the appearance of macroturbulent line broadening, and the formation of clumps in the wind. To investigate a possible interplay between pulsations and mass-loss, we carried out an observational campaign of the supergiant 55 Cyg over a period of five years to search for photospheric activity and cyclic mass-loss variability in the stellar wind. We modeled the H, He I, Si II and Si III lines using the nonlocal thermal equilibrium atmosphere code FASTWIND and derived the photospheric and wind parameters. In addition, we searched for variability in the intensity and radial velocity of photospheric lines and performed a moment analysis of the line profiles to derive frequencies and amplitudes of the variations. The Halpha line varies with time in both intensity and shape, displaying various types of profiles: P Cygni, pure emission, almost complete absence, and double or multiple peaked. The star undergoes episodes of variable mass-loss rates that change by a factor of 1.7-2 on different timescales. We also observe changes in the ionization rate of Si II and determine a multiperiodic oscillation in the He I absorption lines, with periods ranging from a few hours to 22.5 days. We interpret the photospheric line variations in terms of oscillations in p-, g-, and strange modes. We suggest that these pulsations can lead to phases of enhanced mass loss. Furthermore, they can mislead the determination of the stellar rotation. We classify the star as a post-red supergiant, belonging to the group of alpha Cyg variables., Comment: 20 pages, 18 figures, 3 tables, accepted to Astronomy & Astrophysics

Published

2015

2. Spectroscopic survey of Kepler stars. I. HERMES/Mercator observations of A- and F-type stars

Author

Niemczura, E., Murphy, S. J., Smalley, B., Uytterhoeven, K., Pigulski, A., Lehmann, H., Bowman, D. M., Catanzaro, G., van Aarle, E., Bloemen, S., Briquet, M., De Cat, P., Drobek, D., Eyer, L., Gameiro, J. F. S., Gorlova, N., Kaminski, K., Lampens, P., Marcos-Arenal, P., Papics, P. I., Vandenbussche, B., Van Winckel, H., Steslicki, M., and Fagas, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The Kepler space mission provided near-continuous and high-precision photometry of about 207,000 stars, which can be used for asteroseismology. However, for successful seismic modelling it is equally important to have accurate stellar physical parameters. Therefore, supplementary ground-based data are needed. We report the results of the analysis of high-resolution spectroscopic data of A- and F-type stars from the Kepler field, which were obtained with the HERMES spectrograph on the Mercator telescope. We determined spectral types, atmospheric parameters and chemical abundances for a sample of 117 stars. Hydrogen Balmer, Fe I, and Fe II lines were used to derive effective temperatures, surface gravities, and microturbulent velocities. We determined chemical abundances and projected rotational velocities using a spectrum synthesis technique. The atmospheric parameters obtained were compared with those from the Kepler Input Catalogue (KIC), confirming that the KIC effective temperatures are underestimated for A stars. Effective temperatures calculated by spectral energy distribution fitting are in good agreement with those determined from the spectral line analysis. The analysed sample comprises stars with approximately solar chemical abundances, as well as chemically peculiar stars of the Am, Ap, and Lambda Boo types. The distribution of the projected rotational velocity, Vsini, is typical for A and F stars and ranges from 8 to about 280 km/s, with a mean of 134 km/s., Comment: Accepted for publication in MNRAS (22 pages, 6 tables)

Published

2015

3. Spectroscopic survey of Kepler stars.(a similar to...) I. HERMES/Mercator observations of A- and F-type stars

Author

Niemczura, E, Murphy, SJ, Smalley, B, Uytterhoeven, K, Pigulski, A, Lehmann, H, Bowman, DM, Catanzaro, G, van Aarle, E, Bloemen, S, Briquet, M, De Cat, P, Drobek, D, Eyer, L, Gameiro, JFS, Gorlova, N, Kaminski, K, Lampens, P, Marcos-Arenal, P, Papics, PI, Vandenbussche, B, Van Winckel, H, Steslicki, M, and Fagas, M

Subjects

abundances [stars], chemically peculiar [stars], general [stars], rotation [stars], Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Earth and Planetary Astrophysics, QC, Astrophysics::Galaxy Astrophysics, QB

Abstract

The Kepler space mission provided near-continuous and high-precision photometry of about 207 000 stars, which can be used for asteroseismology. However, for successful seismic modeling it is equally important to have accurate stellar physical parameters. Therefore, supplementary ground-based data are needed. We report the results of the analysis of high-resolution spectroscopic data of A- and F-type stars from the Kepler field, which were obtained with the HERMES spectrograph on the Mercator telescope. We determined spectral types, atmospheric parameters and chemical abundances for a sample of 117 stars. Hydrogen Balmer, Fe i, and Fe ii lines were used to derive effective temperatures, surface gravities, and microturbulent velocities. We determined chemical abundances and projected rotational velocities using a spectrum synthesis technique. The atmospheric parameters obtained were compared with those from the Kepler Input Catalogue (KIC), confirming that the KIC effective temperatures are underestimated for A stars. Effective temperatures calculated by spectral energy distribution fitting are in good agreement with those determined from the spectral line analysis. The analysed sample comprises stars with approximately solar chemical abundances, as well as chemically peculiar stars of the Am, Ap, and λ Boo types. The distribution of the projected rotational velocity, vsin i, is typical for A and F stars and ranges from 8 to about 280 km s−1, with a mean of 134 km s−1. Accepted for publication in MNRAS (22 pages, 6 tables) ispartof: Monthly Notices of the Royal Astronomical Society vol:450 issue:3 pages:2764-2783 status: published

Published

2015

4. Interplay between pulsations and mass loss in the blue supergiant 55 Cygnus = HD 198 478

Author

Kraus, M., primary, Haucke, M., additional, Cidale, L. S., additional, Venero, R. O. J., additional, Nickeler, D. H., additional, Németh, P., additional, Niemczura, E., additional, Tomić, S., additional, Aret, A., additional, Kubát, J., additional, Kubátová, B., additional, Oksala, M. E., additional, Curé, M., additional, Kamiński, K., additional, Dimitrov, W., additional, Fagas, M., additional, and Polińska, M., additional

Published

2015

5. Spectroscopic survey of Kepler stars.★ I. HERMES/Mercator observations of A- and F-type stars

Author

Niemczura, E., primary, Murphy, S. J., additional, Smalley, B., additional, Uytterhoeven, K., additional, Pigulski, A., additional, Lehmann, H., additional, Bowman, D. M., additional, Catanzaro, G., additional, van Aarle, E., additional, Bloemen, S., additional, Briquet, M., additional, De Cat, P., additional, Drobek, D., additional, Eyer, L., additional, Gameiro, J. F. S., additional, Gorlova, N., additional, Kamiński, K., additional, Lampens, P., additional, Marcos-Arenal, P., additional, Pápics, P. I., additional, Vandenbussche, B., additional, Van Winckel, H., additional, Stȩślicki, M., additional, and Fagas, M., additional

Published

2015

6. V342 Andromedae B is an eccentric-orbit eclipsing binary

Author

Dimitrov, W., primary, Kamiński, K., additional, Lehmann, H., additional, Ligęza, P., additional, Fagas, M., additional, Bagińska, P., additional, Kwiatkowski, T., additional, Bąkowska, K., additional, Kowalczyk, A., additional, Polińska, M., additional, Bartczak, P., additional, Przybyszewska, A., additional, Kruszewski, A., additional, Kurzawa, K., additional, and Schwarzenberg-Czerny, A., additional

Published

2015

7. Interplay between pulsations and mass loss in the blue supergiant 55 Cygnus = HD198 478.

Author

Kraus, M., Haucke, M., Cidale, L. S., Venero, R. O. J., Nickeler, D. H., Németh, P., Niemczura, E., Tomić, S., Aret, A., Kubát, J., Kubátová, B., Oksala, M. E., Curé, M., Kamiński, K., Dimitrov, W., Fagas, M., and Polińska, M.

Subjects

STELLAR oscillations, MASS loss (Astrophysics), SUPERGIANT stars, SOLAR granulation, RADIAL velocity of stars, STELLAR radiation, STELLAR spectra

Abstract

Context. Blue supergiant stars are known to display photometric and spectroscopic variability that is suggested to be linked to stellar pulsations. Pulsational activity in massive stars strongly depends on the star's evolutionary stage and is assumed to be connected with mass-loss episodes, the appearance of macroturbulent line broadening, and the formation of clumps in the wind. Aims. To investigate a possible interplay between pulsations and mass-loss, we carried out an observational campaign of the supergiant 55 Cyg over a period of five years to search for photospheric activity and cyclic mass-loss variability in the stellar wind. Methods. We modeled the H, He i, Si ii, and Si iii lines using the nonlocal thermal equilibrium atmosphere code FASTWIND and derived the photospheric and wind parameters. In addition, we searched for variability in the intensity and radial velocity of photospheric lines and performed a moment analysis of the line profiles to derive frequencies and amplitudes of the variations. Results. The Hα line varies with time in both intensity and shape, displaying various types of profiles: P Cygni, pure emission, almost complete absence, and double or multiple peaked. The star undergoes episodes of variable mass-loss rates that change by a factor of 1.7-2 on different timescales. We also observe changes in the ionization rate of Si ii and determine a multiperiodic oscillation in the He i absorption lines, with periods ranging from a few hours to 22.5 days. Conclusions. We interpret the photospheric line variations in terms of oscillations in p-, g-, and strange modes. We suggest that these pulsations can lead to phases of enhanced mass loss. Furthermore, they can mislead the determination of the stellar rotation. We classify the star as a post-red supergiant, belonging to the group of α Cyg variables. [ABSTRACT FROM AUTHOR]

Published

2015