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539 results on '"Montalban J"'

155. Combining multiple structural inversions to constrain the solar modelling problem

Author

Buldgen, G., primary, Salmon, S. J. A. J., additional, Noels, A., additional, Scuflaire, R., additional, Montalban, J., additional, Baturin, V. A., additional, Eggenberger, P., additional, Gryaznov, V. K., additional, Iosilevskiy, I. L., additional, Meynet, G., additional, Chaplin, W. J., additional, Miglio, A., additional, Oreshina, A. V., additional, Richard, O., additional, and Starostin, A. N., additional

Published
2019
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157. The $\textit{Gaia}$-ESO Survey: Calibration strategy

Author

Pancino, E, Lardo, C, Altavilla, G, Marinoni, S, Ragaini, S, Cocozza, G, Bellazzini, M, Sabbi, E, Zoccali, M, Donati, P, Heiter, U, Koposov, SE, Blomme, R, Morel, T, Símon-Díaz, S, Lobel, A, Soubiran, C, Montalban, J, Valentini, M, Casey, AR, Blanco-Cuaresma, S, Jofré, P, Worley, CC, Magrini, L, Hourihane, A, François, P, Feltzing, S, Gilmore, G, Randich, S, Asplund, M, Bonifacio, P, Drew, JE, Jeffries, RD, Micela, G, Vallenari, A, Alfaro, EJ, Allende Prieto, C, Babusiaux, C, Bensby, T, Bragaglia, A, Flaccomio, E, Hambly, N, Korn, AJ, Lanzafame, AC, Smiljanic, R, Van Eck, S, Walton, NA, Bayo, A, Carraro, G, Costado, MT, Damiani, F, Edvardsson, B, Franciosini, E, Frasca, A, Lewis, J, Monaco, L, Morbidelli, L, Prisinzano, L, Sacco, GG, Sbordone, L, Sousa, SG, Zaggia, S, Koch, A, Koposov, Sergey [0000-0003-2644-135X], Worley, Clare [0000-0001-9310-2898], Gilmore, Gerard [0000-0003-4632-0213], Walton, Nicholas [0000-0003-3983-8778], and Apollo - University of Cambridge Repository

Subjects
surveys, stars: abundances, techniques: radial velocities, Condensed Matter::Disordered Systems and Neural Networks, Galaxy: general, Astrophysics::Galaxy Astrophysics, techniques: spectroscopic
Abstract

The $\textit{Gaia}$-ESO survey (GES) is now in its fifth and last year of observations and has produced tens of thousands of high-quality spectra of stars in all Milky Way components. This paper presents the strategy behind the selection of astrophysical calibration targets, ensuring that all GES results on radial velocities, atmospheric parameters, and chemical abundance ratios will be both internally consistent and easily comparable with other literature results, especially from other large spectroscopic surveys and from $\textit{Gaia}$. The calibration of GES is particularly delicate because of (i) the large space of parameters covered by its targets, ranging from dwarfs to giants, from O to M stars; these targets have a large wide of metallicities and also include fast rotators, emission line objects, and stars affected by veiling; (ii) the variety of observing setups, with different wavelength ranges and resolution; and (iii) the choice of analyzing the data with many different state-of-the-art methods, each stronger in a different region of the parameter space, which ensures a better understanding of systematic uncertainties. An overview of the GES calibration and homogenization strategy is also given, along with some examples of the usage and results of calibrators in GES iDR4, which is the fourth internal GES data release and will form the basis of the next GES public data release. The agreement between GES iDR4 recommended values and reference values for the calibrating objects are very satisfactory. The average offsets and spreads are generally compatible with the GES measurement errors, which in iDR4 data already meet the requirements set by the main GES scientific goals., Based on data products from observations made with ESO Telescopes at the La Silla Paranal Observatory under program ID 188.B-3002 and 193.B-0936. These data products have been processed by the Cambridge Astronomy Survey Unit (CASU) at the Institute of Astronomy, University of Cambridge, and by the FLAMES/UVES reduction team at INAF–Osservatorio Astrofisico di Arcetri. These data have been obtained from the Gaia-ESO Survey Data Archive, prepared and hosted by the Wide Field Astronomy Unit, Institute for Astronomy, University of Edinburgh, which is funded by the UK Science and Technology Facilities Council. This work was partly supported by the European Union FP7 program through ERC grant number 320360 and by the Leverhulme Trust through grant RPG-2012-541. We acknowledge the support from INAF and Ministero dell’Istruzione, dell’Università e della Ricerca (MIUR) in the form of the grant “Premiale VLT 2012”. The results presented here benefit from discussions held during the Gaia-ESO workshops and conferences supported by the ESF (European Science Foundation) through the GREAT Research Network Programme. S.F. and T.B. acknowledge the support from the New Milky Way project funded by a grant from the Knut and Alice Wallenberg foundation. C.L. gratefully acknowledges financial support from the European Research Council (ERC-CoG-646928, Multi-Pop, PI: N. Bastian). U.H. and A.J.K acknowledge support from the Swedish National Space Board (Rymdstyrelsen). The research of A.L. has been subsidized by the Belgian Federal Science Policy Office under contract No. BR/143/A2/BRASS. R.S. acknowledges support by the National Science Center of Poland through grant 2014/15/B/ST9/03981. C.A.P. is thankful for support from the Spanish Ministry of Economy and Competitiveness (MINECO) through grant AYA2014- 56359-P. J.M. acknowledges support from the ERC Consolidator Grant funding scheme (project STARKEY, G.A. No. 615604). T.M. acknowledges financial support from Belspo for contract PRODEX Gaia-DPAC. S.G.S acknowledges the support by Fundação para a Ciência e Tecnologia (FCT) through national funds and a research grant (project ref. UID/FIS/04434/2013, and PTDC/FISAST/7073/2014). S.G.S. also acknowledge the support from FCT through Investigador FCT contract of reference IF/00028/2014 and POPH/FSE (EC) by FEDER funding through the program “Programa Operacional de Factores de Competitividade – COMPETE”. L.S. acknowledges support by the Ministry of Economy, Development, and Tourism’s Millennium Science Initiative through grant IC120009, awarded to The Millennium Institute of Astrophysics (MAS). M.Z. acknowledges support by the Ministry of Economy, Development, and Tourism’s Millennium Science Initiative through grant IC120009, awarded to The Millennium Institute of Astrophysics (MAS), by Fondecyt Regular 1150345 and by the BASAL CATA PFB-06. E.J.A. and M.T.C acknowledge the financial support from the Spanish Ministerio de Economía y Competitividad, through grant AYA2013-40611-P. S.Z. acknowledge the support from the INAF grant “PRIN INAF 2014”, “Star won’t tell their ages to Gaia, Galactic Archaelogy with wide-area asterosismic”. This research has made use of the WEBDA database, operated at the Department of Theoretical Physics and Astrophysics of the Masaryk University; of the TOPCAT catalogue handling and plotting tool (Taylor 2005); of the Simbad database and the VizieR catalog access tool, CDS, Strasbourg, France (Ochsenbein et al. 2000); and of NASA’s Astrophysics Data System.

Published
2017

159. Atmospheric parameters and chemical properties of red giants in the CoRoT asteroseismology fields

Author

{Morel} T., {Miglio} A., {Lagarde} N., {Montalban} J., {Rainer} M., {Poretti} E., {Eggenberger} P., {Hekker} S., {Kallinger} T., {Mosser} B., {Valentini} M., {Carrier} F., {Hareter} M., and {Mantegazza} L.

Subjects
Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Galaxy Astrophysics
Abstract

A precise characterisation of the red giants in the seismology fields of the CoRoT satellite is a prerequisite for further in depth seismic modelling. High resolution FEROS and HARPS spectra were obtained as part of the ground based follow up campaigns for 19 targets holding great asteroseismic potential. These data are used to accurately estimate their fundamental parameters and the abundances of 16 chemical species in a self consistent manner. Some powerful probes of mixing are investigated (the Li and CNO abundances as well as the carbon isotopic ratio in a few cases). The information provided by the spectroscopic and seismic data is combined to provide more accurate physical parameters and abundances. The stars in our sample follow the general abundance trends as a function of the metallicity observed in stars of the Galactic disk. After an allowance is made for the chemical evolution of the interstellar medium the observational signature of internal mixing phenomena is revealed through the detection at the stellar surface of the products of the CN cycle. A contamination by NeNa cycled material in the most massive stars is also discussed. With the asteroseismic constraints these data will pave the way for a detailed theoretical investigation of the physical processes responsible for the transport of chemical elements in evolved low and intermediate mass stars.

Published
2014

162. The PLATO 2.0 mission

Author

Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences, Valencia, Diana, Rauer, H., Catala, C., Aerts, C., Appourchaux, T., Benz, W., Brandeker, A., Christensen-Dalsgaard, J., Deleuil, M., Gizon, L., Goupil, M.-J., Güdel, M., Janot-Pacheco, E., Mas-Hesse, M., Pagano, I., Piotto, G., Pollacco, D., Santos, Ċ., Smith, A., Suárez, J.-C., Szabó, R., Udry, S., Adibekyan, V., Alibert, Y., Almenara, J.-M., Amaro-Seoane, P., Eiff, M. A, Asplund, M., Antonello, E., Barnes, S., Baudin, F., Belkacem, K., Bergemann, M., Bihain, G., Birch, A. C, Bonfils, X., Boisse, I., Bonomo, A. S, Borsa, F., Brandão, I. M, Brocato, E., Brun, S., Burleigh, M., Burston, R., Cabrera, J., Cassisi, S., Chaplin, W., Charpinet, S., Chiappini, C., Church, R. P, Csizmadia, Sz., Cunha, M., Damasso, M., Davies, M. B, Deeg, H. J, Díaz, R. F, Dreizler, S., Dreyer, C., Eggenberger, P., Ehrenreich, D., Eigmüller, P., Erikson, A., Farmer, R., Feltzing, S., Oliveira Fialho, F. d, Figueira, P., Forveille, T., Fridlund, M., García, R. A, Giommi, P., Giuffrida, G., Godolt, M., da Silva, J. G, Granzer, T., Grenfell, J. L, Grotsch-Noels, A., Günther, E., Haswell, C. A, Hatzes, A. P, Hébrard, G., Hekker, S., Helled, R., Heng, K., Jenkins, J. M, Johansen, A., Khodachenko, M. L, Kislyakova, K. G, Kley, W., Kolb, U., Krivova, N., Kupka, F., Lammer, H., Lanza, A. F, Lebreton, Y., Magrin, D., Marcos-Arenal, P., Marrese, P. M, Marques, J. P, Martins, J., Mathis, S., Mathur, S., Messina, S., Miglio, A., Montalban, J., Montalto, M., P. F. G. Monteiro, M. J, Moradi, H., Moravveji, E., Mordasini, C., Morel, T., Mortier, A., Nascimbeni, V., Nelson, R. P, Nielsen, M. B, Noack, L., Norton, A. J, Ofir, A., Oshagh, M., Ouazzani, R.-M., Pápics, P., Parro, V. C, Petit, P., Plez, B., Poretti, E., Quirrenbach, A., Ragazzoni, R., Raimondo, G., Rainer, M., Reese, D. R, Redmer, R., Reffert, S., Rojas-Ayala, B., Roxburgh, I. W, Salmon, S., Santerne, A., Schneider, J., Schou, J., Schuh, S., Schunker, H., Silva-Valio, A., Silvotti, R., Skillen, I., Snellen, I., Sohl, F., Sousa, S. G, Sozzetti, A., Stello, D., Strassmeier, K. G, Švanda, M., Szabó, Gy. M, Tkachenko, A., Van Grootel, V., Vauclair, S. D, Ventura, P., Wagner, F. W, Walton, N. A, Weingrill, J., Werner, S. C, Wheatley, P. J, Zwintz, K., Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences, Valencia, Diana, Rauer, H., Catala, C., Aerts, C., Appourchaux, T., Benz, W., Brandeker, A., Christensen-Dalsgaard, J., Deleuil, M., Gizon, L., Goupil, M.-J., Güdel, M., Janot-Pacheco, E., Mas-Hesse, M., Pagano, I., Piotto, G., Pollacco, D., Santos, Ċ., Smith, A., Suárez, J.-C., Szabó, R., Udry, S., Adibekyan, V., Alibert, Y., Almenara, J.-M., Amaro-Seoane, P., Eiff, M. A, Asplund, M., Antonello, E., Barnes, S., Baudin, F., Belkacem, K., Bergemann, M., Bihain, G., Birch, A. C, Bonfils, X., Boisse, I., Bonomo, A. S, Borsa, F., Brandão, I. M, Brocato, E., Brun, S., Burleigh, M., Burston, R., Cabrera, J., Cassisi, S., Chaplin, W., Charpinet, S., Chiappini, C., Church, R. P, Csizmadia, Sz., Cunha, M., Damasso, M., Davies, M. B, Deeg, H. J, Díaz, R. F, Dreizler, S., Dreyer, C., Eggenberger, P., Ehrenreich, D., Eigmüller, P., Erikson, A., Farmer, R., Feltzing, S., Oliveira Fialho, F. d, Figueira, P., Forveille, T., Fridlund, M., García, R. A, Giommi, P., Giuffrida, G., Godolt, M., da Silva, J. G, Granzer, T., Grenfell, J. L, Grotsch-Noels, A., Günther, E., Haswell, C. A, Hatzes, A. P, Hébrard, G., Hekker, S., Helled, R., Heng, K., Jenkins, J. M, Johansen, A., Khodachenko, M. L, Kislyakova, K. G, Kley, W., Kolb, U., Krivova, N., Kupka, F., Lammer, H., Lanza, A. F, Lebreton, Y., Magrin, D., Marcos-Arenal, P., Marrese, P. M, Marques, J. P, Martins, J., Mathis, S., Mathur, S., Messina, S., Miglio, A., Montalban, J., Montalto, M., P. F. G. Monteiro, M. J, Moradi, H., Moravveji, E., Mordasini, C., Morel, T., Mortier, A., Nascimbeni, V., Nelson, R. P, Nielsen, M. B, Noack, L., Norton, A. J, Ofir, A., Oshagh, M., Ouazzani, R.-M., Pápics, P., Parro, V. C, Petit, P., Plez, B., Poretti, E., Quirrenbach, A., Ragazzoni, R., Raimondo, G., Rainer, M., Reese, D. R, Redmer, R., Reffert, S., Rojas-Ayala, B., Roxburgh, I. W, Salmon, S., Santerne, A., Schneider, J., Schou, J., Schuh, S., Schunker, H., Silva-Valio, A., Silvotti, R., Skillen, I., Snellen, I., Sohl, F., Sousa, S. G, Sozzetti, A., Stello, D., Strassmeier, K. G, Švanda, M., Szabó, Gy. M, Tkachenko, A., Van Grootel, V., Vauclair, S. D, Ventura, P., Wagner, F. W, Walton, N. A, Weingrill, J., Werner, S. C, Wheatley, P. J, and Zwintz, K.

Abstract

PLATO 2.0 has recently been selected for ESA’s M3 launch opportunity (2022/24). Providing accurate key planet parameters (radius, mass, density and age) in statistical numbers, it addresses fundamental questions such as: How do planetary systems form and evolve? Are there other systems with planets like ours, including potentially habitable planets? The PLATO 2.0 instrument consists of 34 small aperture telescopes (32 with 25 s readout cadence and 2 with 2.5 s candence) providing a wide field-of-view (2232 deg 2) and a large photometric magnitude range (4–16 mag). It focusses on bright (4–11 mag) stars in wide fields to detect and characterize planets down to Earth-size by photometric transits, whose masses can then be determined by ground-based radial-velocity follow-up measurements. Asteroseismology will be performed for these bright stars to obtain highly accurate stellar parameters, including masses and ages. The combination of bright targets and asteroseismology results in high accuracy for the bulk planet parameters: 2 %, 4–10 % and 10 % for planet radii, masses and ages, respectively. The planned baseline observing strategy includes two long pointings (2–3 years) to detect and bulk characterize planets reaching into the habitable zone (HZ) of solar-like stars and an additional step-and-stare phase to cover in total about 50 % of the sky. PLATO 2.0 will observe up to 1,000,000 stars and detect and characterize hundreds of small planets, and thousands of planets in the Neptune to gas giant regime out to the HZ. It will therefore provide the first large-scale catalogue of bulk characterized planets with accurate radii, masses, mean densities and ages. This catalogue will include terrestrial planets at intermediate orbital distances, where surface temperatures are moderate. Coverage of this parameter range with statistical numbers of bulk characterized planets is unique to PLATO 2.0. The PLATO 2.0 catalogue allows us to e.g.: - complete our knowledge of planet di

Published
2017

163. The gaia -ESO survey: calibration strategy

Author

Ministero dell'Istruzione, dell'Università e della Ricerca, Knut and Alice Wallenberg Foundation, European Research Council, Swedish National Space Board, Belgian Science Policy Office, National Science Centre (Poland), European Science Foundation, Ministerio de Economía y Competitividad (España), Pancino, E., Lardo, C., Altavilla, G., Marinoni, S., Ragaini, S., Cocozza, G., Bellazzini, M., Sabbi, E., Zoccali, M., Donati, P., Heiter, Ulrike, Koposov, S.E., Blomme, R., Morel, T., Símon-Díaz, S., Lobel, A., Soubiran, C., Montalban, J., Valentini, M., Casey, A.R., Blanco-Cuaresma, S., Jofré, P., Worley, C.C., Magrini, L., Hourihane, A., François, P., Feltzing, S., Gilmore, Gerry, Randich, S., Asplund, M., Bonifacio, P., Drew, J.E., Jeffries, R.D., Micela, Giusi, Vallenari, A., Alfaro, Emilio J., Allende Prieto, Carlos, Babusiaux, C., Bensby, T., Bragaglia, A., Flaccomio, E., Hambly, N., Korn, A.J., Lanzafame, A.C., Smiljanic, R., Van Eck, S., Walton, N.A., Bayo, A., Carraro, G., Costado, M. T., Ministero dell'Istruzione, dell'Università e della Ricerca, Knut and Alice Wallenberg Foundation, European Research Council, Swedish National Space Board, Belgian Science Policy Office, National Science Centre (Poland), European Science Foundation, Ministerio de Economía y Competitividad (España), Pancino, E., Lardo, C., Altavilla, G., Marinoni, S., Ragaini, S., Cocozza, G., Bellazzini, M., Sabbi, E., Zoccali, M., Donati, P., Heiter, Ulrike, Koposov, S.E., Blomme, R., Morel, T., Símon-Díaz, S., Lobel, A., Soubiran, C., Montalban, J., Valentini, M., Casey, A.R., Blanco-Cuaresma, S., Jofré, P., Worley, C.C., Magrini, L., Hourihane, A., François, P., Feltzing, S., Gilmore, Gerry, Randich, S., Asplund, M., Bonifacio, P., Drew, J.E., Jeffries, R.D., Micela, Giusi, Vallenari, A., Alfaro, Emilio J., Allende Prieto, Carlos, Babusiaux, C., Bensby, T., Bragaglia, A., Flaccomio, E., Hambly, N., Korn, A.J., Lanzafame, A.C., Smiljanic, R., Van Eck, S., Walton, N.A., Bayo, A., Carraro, G., and Costado, M. T.

Abstract

The Gaia-ESO survey (GES) is now in its fifth and last year of observations and has produced tens of thousands of high-quality spectra of stars in all Milky Way components. This paper presents the strategy behind the selection of astrophysical calibration targets, ensuring that all GES results on radial velocities, atmospheric parameters, and chemical abundance ratios will be both internally consistent and easily comparable with other literature results, especially from other large spectroscopic surveys and from Gaia. The calibration of GES is particularly delicate because of (i) the large space of parameters covered by its targets, ranging from dwarfs to giants, from O to M stars; these targets have a large wide of metallicities and also include fast rotators, emission line objects, and stars affected by veiling; (ii) the variety of observing setups, with different wavelength ranges and resolution; and (iii) the choice of analyzing the data with many different state-of-the-art methods, each stronger in a different region of the parameter space, which ensures a better understanding of systematic uncertainties. An overview of the GES calibration and homogenization strategy is also given, along with some examples of the usage and results of calibrators in GES iDR4, which is the fourth internal GES data release and will form the basis of the next GES public data release. The agreement between GES iDR4 recommended values and reference values for the calibrating objects are very satisfactory. The average offsets and spreads are generally compatible with the GES measurement errors, which in iDR4 data already meet the requirements set by the main GES scientific goals.© ESO, 2017.

Published
2017

167. TheGaia-ESO Survey: Calibration strategy

Author

Pancino, E., primary, Lardo, C., additional, Altavilla, G., additional, Marinoni, S., additional, Ragaini, S., additional, Cocozza, G., additional, Bellazzini, M., additional, Sabbi, E., additional, Zoccali, M., additional, Donati, P., additional, Heiter, U., additional, Koposov, S. E., additional, Blomme, R., additional, Morel, T., additional, Símon-Díaz, S., additional, Lobel, A., additional, Soubiran, C., additional, Montalban, J., additional, Valentini, M., additional, Casey, A. R., additional, Blanco-Cuaresma, S., additional, Jofré, P., additional, Worley, C. C., additional, Magrini, L., additional, Hourihane, A., additional, François, P., additional, Feltzing, S., additional, Gilmore, G., additional, Randich, S., additional, Asplund, M., additional, Bonifacio, P., additional, Drew, J. E., additional, Jeffries, R. D., additional, Micela, G., additional, Vallenari, A., additional, Alfaro, E. J., additional, Allende Prieto, C., additional, Babusiaux, C., additional, Bensby, T., additional, Bragaglia, A., additional, Flaccomio, E., additional, Hambly, N., additional, Korn, A. J., additional, Lanzafame, A. C., additional, Smiljanic, R., additional, Van Eck, S., additional, Walton, N. A., additional, Bayo, A., additional, Carraro, G., additional, Costado, M. T., additional, Damiani, F., additional, Edvardsson, B., additional, Franciosini, E., additional, Frasca, A., additional, Lewis, J., additional, Monaco, L., additional, Morbidelli, L., additional, Prisinzano, L., additional, Sacco, G. G., additional, Sbordone, L., additional, Sousa, S. G., additional, Zaggia, S., additional, and Koch, A., additional

Published
2017
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168. TheGaia-ESO Survey: revisiting the Li-rich giant problem

Author

Casey, A. R., primary, Ruchti, G., additional, Masseron, T., additional, Randich, S., additional, Gilmore, G., additional, Lind, K., additional, Kennedy, G. M., additional, Koposov, S. E., additional, Hourihane, A., additional, Franciosini, E., additional, Lewis, J. R., additional, Magrini, L., additional, Morbidelli, L., additional, Sacco, G. G., additional, Worley, C. C., additional, Feltzing, S., additional, Jeffries, R. D., additional, Vallenari, A., additional, Bensby, T., additional, Bragaglia, A., additional, Flaccomio, E., additional, Francois, P., additional, Korn, A. J., additional, Lanzafame, A., additional, Pancino, E., additional, Recio-Blanco, A., additional, Smiljanic, R., additional, Carraro, G., additional, Costado, M. T., additional, Damiani, F., additional, Donati, P., additional, Frasca, A., additional, Jofré, P., additional, Lardo, C., additional, de Laverny, P., additional, Monaco, L., additional, Prisinzano, L., additional, Sbordone, L., additional, Sousa, S. G., additional, Tautvaišienė, G., additional, Zaggia, S., additional, Zwitter, T., additional, Delgado Mena, E., additional, Chorniy, Y., additional, Martell, S. L., additional, Silva Aguirre, V., additional, Miglio, A., additional, Chiappini, C., additional, Montalban, J., additional, Morel, T., additional, and Valentini, M., additional

Published
2016
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173. CoRoT Observations of O Stars: Diverse Origins of Variability

Author

Blomme, R., Briquet, M., Degroote, P., Mahy, L., Aerts, Conny, Cuypers, J., Godart, M., Gosset, E., Hareter, M., Montalban, J., Morel, T., Nieva, M.F., Noels, A., Oreiro, R., Poretti, E., Przybilla, N., Rainer, M., Rauw, G., Schiller, F., Simon-Diaz, S., Smolders, K., Ventura, P., Vučković, M., Auvergne, M., Baglin, A., Baudin, F., Catala, C., Michel, E., Samadi, R., Rubert, C., St-Louis, N., Moffat, A.F.J., Drissen, L., and Drissen, L.

Subjects
Astronomy, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, Astronomical Society of the Pacific Conference Series
Abstract

Contains fulltext : 111302.pdf (Author’s version preprint ) (Open Access) Contains fulltext : 111302.pdf (Publisher’s version ) (Closed access)

Published
2013

174. CoRoT Observations of O Stars: Diverse Origins of Variability

Author

Blomme, R., Briquet, M., Degroote, P., Mahy, L., Aerts, C., Cuypers, J., Godart, M., Gosset, E., Hareter, M., Montalban, J., Morel, T., Nieva, M. F., Noels, A., Oreiro, R., Poretti, E., Przybilla, N., Rainer, M., Rauw, G., Schiller, F., Simon-Diaz, S., Smolders, K., Ventura, P., Vučković, M., Auvergne, M., Baglin, A., Baudin, F., Catala, C., Michel, E., Samadi, R., Blomme, Briquet, Degroote, Mahy, Aerts, Cuypers, Godart, Gosset, Hareter, Montalban, Morel, Nieva, M. F., Noels, Oreiro, Poretti, Przybilla, Rainer, Rauw, Schiller, Simon-Diaz, Smolders, Ventura, Vučković, Auvergne, Baglin, Baudin, Catala, Michel, and Samadi

Published
2012

179. OH and H2O maser variations in W33B

Author

Chiappini, C., Anders, F., Rodrigues, T., Miglio, A., Montalban, J., Mosser, B., Girardi, L., Valentini, M., Noels, A., Morel, T., Minchev, I., Steinmetz, M., Santiago, B., Schultheis, M., Martig, M., da Costa, L., Maia, M., Allende Prieto, C., de Assis Peralta, R., Hekker, S., Themessl, N., Kallinger, T., Garcia, R., Mathur, S., Baudin, F., Beers, T., Cunha, K., Harding, P., Holtzman, J., Majewski, S., Mészáros, Sz., Nidever, D., Pan, K., Schiavon, R., Shetrone, M., Schneider, D., Stassun, K., Colom, P., Lekht, E., Pashchenko, M., Rudnitskij, G., Leibniz-Institut für Astrophysik Potsdam (AIP), Institut d'Astrophysique et de Géophysique [Liège], Université de Liège, Laboratoire d'études spatiales et d'instrumentation en astrophysique (LESIA), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), INAF - Osservatorio Astronomico di Padova (OAPD), Istituto Nazionale di Astrofisica (INAF), Département d'astrophysique, Géophysique et Océanographie (AGO), Joseph Louis LAGRANGE (LAGRANGE), Université Nice Sophia Antipolis (1965 - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de la Côte d'Azur, COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Université Côte d'Azur (UCA)-Université Côte d'Azur (UCA)-Centre National de la Recherche Scientifique (CNRS), Liverpool John Moores University (LJMU), Laboratoire Géosciences Océan (LGO), Université de Bretagne Sud (UBS)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Université de Brest (UBO)-Centre National de la Recherche Scientifique (CNRS), Mullard Space Science Laboratory (MSSL), University College of London [London] (UCL), School of Physics and Astronomy, University of Birmingham [Birmingham], Institute for Astronomy [Vienna], University of Vienna [Vienna], Institut de Physique du Globe de Paris (IPG Paris), Space Science Institute [Boulder] (SSI), Commissariat à l'énergie atomique et aux énergies alternatives - Laboratoire d'Electronique et de Technologie de l'Information (CEA-LETI), Direction de Recherche Technologique (CEA) (DRT (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Center for the Study of Cosmic Evolution (CSCE), Michigan State University [East Lansing], Michigan State University System-Michigan State University System, Department of Geography, Department of geography, Université Nice Sophia Antipolis (... - 2019) (UNS), Université Côte d'Azur (UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Université Côte d'Azur (UCA)-Centre National de la Recherche Scientifique (CNRS), Institut Français de Recherche pour l'Exploitation de la Mer - Brest (IFREMER Centre de Bretagne), Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Université de Bretagne Sud (UBS)-Université de Brest (UBO)-Centre National de la Recherche Scientifique (CNRS), Institut de Physique du Globe de Paris, Université Côte d'Azur (UCA)-Université Nice Sophia Antipolis (... - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Observatoire de la Côte d'Azur, Université Côte d'Azur (UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), Université de Bretagne Sud (UBS)-Université de Brest (UBO)-Institut Universitaire Européen de la Mer (IUEM), and Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Brest (UBO)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)

Subjects
individual objects, 85A15, lines and bands -ISM, Astrophysics::High Energy Astrophysical Phenomena, Central object, FOS: Physical sciences, Astrophysics, 01 natural sciences, W33B, law.invention, Radio telescope, symbols.namesake, law, 0103 physical sciences, Astrophysics::Solar and Stellar Astrophysics, Maser, masers -ISM, 010303 astronomy & astrophysics, Solar and Stellar Astrophysics (astro-ph.SR), Astrophysics::Galaxy Astrophysics, magnetic fields -ISM, Line (formation), [PHYS]Physics [physics], Physics, Zeeman effect, 010308 nuclear & particles physics, molecules -ISM, Astronomy and Astrophysics, Astrophysics - Astrophysics of Galaxies, Magnetic field, Wavelength, Astrophysics - Solar and Stellar Astrophysics, 13. Climate action, Space and Planetary Science, Astrophysics of Galaxies (astro-ph.GA), symbols, Astrophysics::Earth and Planetary Astrophysics, [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph], Excitation
Abstract

The active star-forming region W33B is a source of OH and H2O maser emission located in distinct zones around the central object. The aim was to obtain the complete Stokes pattern of polarised OH maser emission, to trace its variability and to investigate flares and long-term variability of the H2O maser and evolution of individual emission features. Observations in the OH lines at a wavelength of 18 cm were carried out on the Nan\c{c}ay radio telescope (France) at a number of epochs in 2008--2014; H2O line observations (long-term monitoring) at a wavelength of 1.35 cm were performed on the 22-metre radio telescope of the Pushchino Radio Astronomy Observatory (Russia) between 1981 and 2014. We have observed strong variability of the emission features in the main 1665- and 1667-MHz OH lines as well as in the 1612-MHz satellite line. Zeeman splitting has been detected in the 1665-MHz OH line at 62 km/s and in the 1667-MHz line at 62 and 64 km/s. The magnetic field intensity was estimated to be from 2 to 3 mG. The H2O emission features form filaments, chains with radial-velocity gradients, or more complicated structures including large-scale ones. Long-term observations of the hydroxyl maser in the W33B region have revealed narrowband polarised emission in the 1612-MHz line with a double-peak profile characteristic of Type IIb circumstellar masers. The 30-year monitoring of the water-vapour maser in W33B showed several strong flares of the H2O line. The observed radial-velocity drift of the H2O emission features suggests propagation of an excitation wave in the masering medium with a gradient of radial velocities. In OH and H2O masers some turbulent motions of material are inferred., Comment: 18 pages, 12 figures

Published
2015
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180. Mixed modes in red giants: a window on stellar evolution

Author

Mosser, B., primary, Benomar, O., additional, Belkacem, K., additional, Goupil, M. J., additional, Lagarde, N., additional, Michel, E., additional, Lebreton, Y., additional, Stello, D., additional, Vrard, M., additional, Barban, C., additional, Bedding, T. R., additional, Deheuvels, S., additional, Chaplin, W. J., additional, De Ridder, J., additional, Elsworth, Y., additional, Montalban, J., additional, Noels, A., additional, Ouazzani, R. M., additional, Samadi, R., additional, White, T. R., additional, and Kjeldsen, H., additional

Published
2014
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182. Collagen type IV-related nephropathies in Portugal: pathogenicCOL4A5mutations and clinical characterization of 22 families

Author

Nabais Sá, M.J., primary, Sampaio, S., additional, Oliveira, A., additional, Alves, S., additional, Moura, C.P., additional, Silva, S.E., additional, Castro, R., additional, Araújo, J.A., additional, Rodrigues, M., additional, Neves, F., additional, Seabra, J., additional, Soares, C., additional, Gaspar, M.A., additional, Tavares, I., additional, Freitas, L., additional, Sousa, T.C., additional, Henriques, A.C., additional, Costa, F.T., additional, Morgado, E., additional, Sousa, F.T., additional, Sousa, J.P., additional, da Costa, A.G., additional, Filipe, R., additional, Garrido, J., additional, Montalban, J., additional, Ponce, P., additional, Alves, R., additional, Faria, B., additional, Carvalho, M.F., additional, Pestana, M., additional, Carvalho, F., additional, and Oliveira, J.P., additional

Published
2014
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185. Non-adiabatic seismic study of the thin convective envelope of delta Scuti stars

Author

Dupret, M. A., Grigahcene, A., Garrido, R., Montalban, J., Gabriel, M., Sculflaire, R., Laboratoire d'études spatiales et d'instrumentation en astrophysique (LESIA), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Pôle Astronomie du LESIA, and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris

Subjects
[PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph]
Abstract

International audience

Published
2003

186. CoRoT Observations of O Stars: Diverse Origins of Variability

Author

Drissen, L., Blomme, R., Briquet, M., Degroote, P., Mahy, L., Aerts, Conny, Cuypers, J., Godart, M., Gosset, E., Hareter, M., Montalban, J., Morel, T., Nieva, M.F., Noels, A., Oreiro, R., Poretti, E., Przybilla, N., Rainer, M., Rauw, G., Schiller, F., Simon-Diaz, S., Smolders, K., Ventura, P., Vučković, M., Auvergne, M., Baglin, A., Baudin, F., Catala, C., Michel, E., Samadi, R., Rubert, C., St-Louis, N., Moffat, A.F.J., Drissen, L., Blomme, R., Briquet, M., Degroote, P., Mahy, L., Aerts, Conny, Cuypers, J., Godart, M., Gosset, E., Hareter, M., Montalban, J., Morel, T., Nieva, M.F., Noels, A., Oreiro, R., Poretti, E., Przybilla, N., Rainer, M., Rauw, G., Schiller, F., Simon-Diaz, S., Smolders, K., Ventura, P., Vučković, M., Auvergne, M., Baglin, A., Baudin, F., Catala, C., Michel, E., Samadi, R., Rubert, C., St-Louis, N., and Moffat, A.F.J.

Abstract

Contains fulltext : 111302.pdf (preprint version ) (Open Access)

Published
2013

187. Galactic archaeology: Mapping and dating stellar populations with asteroseismology of red-giant stars

Author

Miglio, A, Chiappini, C, Morel, T, Barbieri, M, Chaplin, W J, Girardi, L, Montalban, J., Valentini, M., Mosser, B, Baudin, F, Casagrande, Luca, Aguirre, V Silva, Miglio, A, Chiappini, C, Morel, T, Barbieri, M, Chaplin, W J, Girardi, L, Montalban, J., Valentini, M., Mosser, B, Baudin, F, Casagrande, Luca, and Aguirre, V Silva

Abstract

Our understanding of howthe Galaxywas formed and evolves is severely hampered by the lack of precise constraints on basic stellar properties such as distances, masses and ages. Here, we show that solar-like pulsating red giants represent a well-populated

Published
2013

189. First results for the solar neighborhood of the Asiago Red Clump Survey

Author

Valentini, M., Munari, U, Saguner, T., Freeman, Kenneth, Pasetto, S., Montalban, J., Grebel, E., Valentini, M., Munari, U, Saguner, T., Freeman, Kenneth, Pasetto, S., Montalban, J., and Grebel, E.

Abstract

The Asiago Red Clump Spectroscopic Survey (ARCS) is an ongoing survey that provides atmospheric parameters, distances and space velocities of a well selected sample of Red Clump stars distributed along the celestial equator. We used the ARCS catalog for a preliminary investigation of the Galactic disk in the Solar Neighborhood, in particular we focused on detection and characterization of moving groups.

Published
2012

190. Variability in the CoRoT photometry of three hot O-type stars. HD 46223, HD 46150 and HD 46966

Author

Blomme, R., Mahy, L., Catala, C., Cuypers, J., Gosset, E., Godart, M., Montalban, J., Ventura, P., Rauw, G., Morel, T., Degroote, P., Aerts, C., Noels, A., Michel, E., Baudin, F., Baglin, A., Auvergne, M., Samadi, R., Blomme, R., Mahy, L., Catala, C., Cuypers, J., Gosset, E., Godart, M., Montalban, J., Ventura, P., Rauw, G., Morel, T., Degroote, P., Aerts, C., Noels, A., Michel, E., Baudin, F., Baglin, A., Auvergne, M., and Samadi, R.

Abstract

The detection of pulsational frequencies in stellar photometry is required as input for asteroseismological modelling. The second short run (SRa02) of the CoRoT mission has provided photometric data of unprecedented quality and time-coverage for a number of O-type stars. We analyse the CoRoT data corresponding to three hot O-type stars, describing the properties of their light curves and we search for pulsational frequencies, which we then compare to theoretical model predictions. We determine the amplitude spectrum of the data, using the Lomb-Scargle and a multifrequency HMM-like technique. Frequencies are extracted by prewhitening, and their significance is evaluated under the assumption that the light curve is dominated by red noise. We search for harmonics, linear combinations and regular spacings among these frequencies. We use simulations with the same time sampling as the data as a powerful tool to judge the significance of our results. From the theoretical point of view, we use the MAD non-adiabatic pulsation code to determine the expected frequencies of excited modes. A substantial number of frequencies is listed, but none can be convincingly identified as being connected to pulsations. The amplitude spectrum is dominated by red noise. Theoretical modelling shows that all three O-type stars can have excited modes but the relation between the theoretical frequencies and the observed spectrum is not obvious. The dominant red noise component in the hot O-type stars studied here clearly points to a different origin than the pulsations seen in cooler O stars. The physical cause of this red noise is unclear, but we speculate on the possibility of sub-surface convection, granulation, or stellar wind inhomogeneities being responsible., Comment: 13 pages, 8 figures, A&A accepted. Tables 2, 3 and 4 available on ftp://omaftp.oma.be/dist/astro/Blomme.R/CoRoT

Published
2011
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191. First Results for the Solar Neighborhood of the Asiago Red Clump Survey

Author

Valentini, M., Munari, U., Saguner, T., Freeman, K., Pasetto, S., Montalban, J., Grebel, E. K., Valentini, M., Munari, U., Saguner, T., Freeman, K., Pasetto, S., Montalban, J., and Grebel, E. K.

Abstract

The Asiago Red Clump Spectroscopic Survey (ARCS) is an ongoing survey that provides atmospheric parameters, distances and space velocities of a well selected sample of Red Clump stars distributed along the celestial equator. We used the ARCS catalog for a preliminary investigation of the Galactic disk in the Solar Neighborhood, in particular we focused on detection and characterization of moving groups., Comment: 2 pages, 1 figure, to appear in the proceedings of "Assembling the Puzzle of the Milky Way", Le Grand Bornand (April 17-22, 2011), C. Reyle, A. Robin, M. Schultheis (eds.)

Published
2011
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192. Adiabatic solar-like oscillations in red giant stars

Author

Montalban, J., Miglio, A., Noels, A., Scuflaire, R., Ventura, P., D'Antona, F., Montalban, J., Miglio, A., Noels, A., Scuflaire, R., Ventura, P., and D'Antona, F.

Abstract

Since the detection of non-radial solar-like oscillation modes in red giants with the CoRoT satellite, the interest in the asteroseismic properties of red giants and the link with their global properties and internal structure is substantially increasing. Moreover, more and more precise data are being collected with the space-based telescopes CoRoT and Kepler. In this paper we present a survey of the most relevant theoretical and observational results obtained up to now concerning the potential of solar-like oscillations in red giants., Comment: Proc. of the workshop "Red Giants as Probes of the Structure and Evolution of the Milky Way" (Roma, 15-17 Nov 2010), Astrophysics and Space Science Proceedings, ISBN 978-3-642-18417-8 (eds. A. Miglio, J. Montalban, A. Noels). Part of RedGiantsMilkyWay/2011/ proceedings available at http://arxiv.org/html/1108.4406v1

Published
2011
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193. CoRoT observations of O stars: diverse origins of variability

Author

Blomme, R., Briquet, M., Degroote, P., Mahy, L., Aerts, C., Cuypers, J., Godart, M., Gosset, E., Hareter, M., Montalban, J., Morel, T., Nieva, M. F., Noels, A., Oreiro, R., Poretti, E., Przybilla, N., Rainer, M., Rauw, G., Schiller, F., Simon-Diaz, S., Smolders, K., Ventura, P., Vuckovic, M., Auvergne, M., Baglin, A., Baudin, F., Catala, C., Michel, E., Samadi, R., Blomme, R., Briquet, M., Degroote, P., Mahy, L., Aerts, C., Cuypers, J., Godart, M., Gosset, E., Hareter, M., Montalban, J., Morel, T., Nieva, M. F., Noels, A., Oreiro, R., Poretti, E., Przybilla, N., Rainer, M., Rauw, G., Schiller, F., Simon-Diaz, S., Smolders, K., Ventura, P., Vuckovic, M., Auvergne, M., Baglin, A., Baudin, F., Catala, C., Michel, E., and Samadi, R.

Abstract

Six O-type stars were observed continuously by the CoRoT satellite during a 34.3-day run. The unprecedented quality of the data allows us to detect even low-amplitude stellar pulsations in some of these stars (HD 46202 and the binaries HD 46149 and Plaskett's star). These cover both opacity-driven modes and solar-like stochastic oscillations, both of importance to the asteroseismological modelling of O stars. Additional effects can be seen in the CoRoT light curves, such as binarity and rotational modulation. Some of the hottest O-type stars (HD 46223, HD 46150 and HD 46966) are dominated by the presence of red-noise: we speculate that this is related to a sub-surface convection zone., Comment: 5 pages, 3 figures, conference paper. To be published in "Four decades of Research on Massive Stars", Astronomical Society of the Pacific. Eds. C. Robert, N. St-Louis and L. Drissen

Published
2011

194. Asteroseismology of old open clusters with Kepler: direct estimate of the integrated RGB mass loss in NGC6791 and NGC6819

Author

Miglio, A., Brogaard, K., Stello, D., Chaplin, W. J., D'Antona, F., Montalban, J., Basu, S., Bressan, A., Grundahl, F., Pinsonneault, M., Serenelli, A. M., Elsworth, Y., Hekker, S., Kallinger, T., Mosser, B., Ventura, P., Bonanno, A., Noels, A., Silva-Aguirre, V., Szabo, R., Li, J., McCauliff, S., Middour, C. K., Kjeldsen, H., Miglio, A., Brogaard, K., Stello, D., Chaplin, W. J., D'Antona, F., Montalban, J., Basu, S., Bressan, A., Grundahl, F., Pinsonneault, M., Serenelli, A. M., Elsworth, Y., Hekker, S., Kallinger, T., Mosser, B., Ventura, P., Bonanno, A., Noels, A., Silva-Aguirre, V., Szabo, R., Li, J., McCauliff, S., Middour, C. K., and Kjeldsen, H.

Abstract

Mass loss of red giant branch (RGB) stars is still poorly determined, despite its crucial role in the chemical enrichment of galaxies. Thanks to the recent detection of solar-like oscillations in G-K giants in open clusters with Kepler, we can now directly determine stellar masses for a statistically significant sample of stars in the old open clusters NGC6791 and NGC6819. The aim of this work is to constrain the integrated RGB mass loss by comparing the average mass of stars in the red clump (RC) with that of stars in the low-luminosity portion of the RGB (i.e. stars with L <~ L(RC)). Stellar masses were determined by combining the available seismic parameters numax and Dnu with additional photometric constraints and with independent distance estimates. We measured the masses of 40 stars on the RGB and 19 in the RC of the old metal-rich cluster NGC6791. We find that the difference between the average mass of RGB and RC stars is small, but significant (Delta M=0.09 +- 0.03 (random) +- 0.04 (systematic) Msun). Interestingly, such a small DeltaM does not support scenarios of an extreme mass loss for this metal-rich cluster. If we describe the mass-loss rate with Reimers' prescription, a first comparison with isochrones suggests that the observed DeltaM is compatible with a mass-loss efficiency parameter in the range 0.1 <~ eta <~ 0.3. Less stringent constraints on the RGB mass-loss rate are set by the analysis of the ~ 2 Gyr-old NGC6819, largely due to the lower mass loss expected for this cluster, and to the lack of an independent and accurate distance determination. In the near future, additional constraints from frequencies of individual pulsation modes and spectroscopic effective temperatures, will allow further stringent tests of the Dnu and numax scaling relations, which provide a novel, and potentially very accurate, means of determining stellar radii and masses., Comment: 13 pages, 7 figures, accepted for publication in MNRAS

Published
2011
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195. WASP-50b: a hot Jupiter transiting a moderately active solar-type star

Author

Gillon, M., Doyle, A. P., Lendl, M., Maxted, P. F. L., Triaud, A. H. M. J., Anderson, D. R., Barros, S. C. C., Bento, J., Collier-Cameron, A., Enoch, B., Faedi, F., Hellier, C., Jehin, E., Magain, P., Montalban, J., Pepe, F., Pollacco, D., Queloz, D., Smalley, B., Segransan, D., Smith, A. M. S., Southworth, J., Udry, S., West, R. G., Wheatley, P. J., Gillon, M., Doyle, A. P., Lendl, M., Maxted, P. F. L., Triaud, A. H. M. J., Anderson, D. R., Barros, S. C. C., Bento, J., Collier-Cameron, A., Enoch, B., Faedi, F., Hellier, C., Jehin, E., Magain, P., Montalban, J., Pepe, F., Pollacco, D., Queloz, D., Smalley, B., Segransan, D., Smith, A. M. S., Southworth, J., Udry, S., West, R. G., and Wheatley, P. J.

Abstract

We report the discovery by the WASP transit survey of a giant planet in a close orbit (0.0295+-0.0009 AU) around a moderately bright (V=11.6, K=10) G9 dwarf (0.89+-0.08 M_sun, 0.84+-0.03 R_sun) in the Southern constellation Eridanus. Thanks to high-precision follow-up photometry and spectroscopy obtained by the telescopes TRAPPIST and Euler, the mass and size of this planet, WASP-50b, are well constrained to 1.47+-0.09 M_jup and 1.15+-0.05 R_jup, respectively. The transit ephemeris is 2455558.6120 (+-0.0002) + N x 1.955096 (+-0.000005) HJD_UTC. The size of the planet is consistent with basic models of irradiated giant planets. The chromospheric activity (log R'_HK = -4.67) and rotational period (P_rot = 16.3+-0.5 days) of the host star suggest an age of 0.8+-0.4 Gy that is discrepant with a stellar-evolution estimate based on the measured stellar parameters (rho_star = 1.48+-0.10 rho_sun, Teff = 5400+-100 K, [Fe/H]= -0.12+-0.08) which favours an age of 7+-3.5 Gy. This discrepancy could be explained by the tidal and magnetic influence of the planet on the star, in good agreement with the observations that stars hosting hot Jupiters tend to show faster rotation and magnetic activity (Pont 2009; Hartman 2010). We measure a stellar inclination of 84 (-31,+6) deg, disfavouring a high stellar obliquity. Thanks to its large irradiation and the relatively small size of its host star, WASP-50b is a good target for occultation spectrophotometry, making it able to constrain the relationship between hot Jupiters' atmospheric thermal profiles and the chromospheric activity of their host stars proposed by Knutson et al. (2010)., Comment: 9 pages, 8 figures. Accepted for publication in Astronomy & Astrophysics

Published
2011
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196. The size of ABDorA from VLTI/AMBER interferometry

Author

Guirado, J. C., Marcaide, J. M., Marti-Vidal, I., Bouquin, J. -B. Le, Close, L. M., Cotton, W. D., Montalban, J., Guirado, J. C., Marcaide, J. M., Marti-Vidal, I., Bouquin, J. -B. Le, Close, L. M., Cotton, W. D., and Montalban, J.

Abstract

The pre-main sequence (PMS) star ABDorA is the main component of the quadruple system ABDoradus. The precise determination of the mass and photometry of the close companion to ABDorA, ABDorC, has provided an important benchmark for calibration of theoretical evolutionary models of low-mass stars. The limiting factor to the precision of this calibration is the age of the system, as both the mass and luminosity of ABDorA and C are well monitored by other ongoing programs. In this paper we present VLTI/AMBER observations of ABDorA which provide a direct measurement of the size of this star, 0.96+/-0.06 Rsun. The latter estimate, combined with other fundamental parameters also measured for this star, allows a precise test of PMS evolutionary models using both H-R diagrams and mass-radius relationships. We have found that our radius measurement is larger than that predicted by the models, which we interpret as an evidence of the oversizing produced by the strong magnetic activity of ABDorA. Considering, at least partially, this magnetic effect, theoretical isochrones have been used to derive constraints to the age of ABDorA, favouring an age about 40-50 Myr for this system. Older ages are not completely excluded by our data., Comment: 7 pages, 5 figures. Accepted for publication in A&A

Published
2011
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197. Solar-like oscillations from the depths of the red-giant star KIC 4351319 observed with Kepler

Author

Di Mauro, M. P., Cardini, D., Catanzaro, G., Ventura, R., Barban, C., Bedding, T. R., Christensen-Dalsgaard, J., De Ridder, J., Hekker, S., Huber, D., Kallinger, T., Miglio, A., Montalban, J., Mosser, B., Stello, D., Uytterhoeven, K., Kinemuchi, K., Kjeldsen, H., Mullally, F., Still, M., Di Mauro, M. P., Cardini, D., Catanzaro, G., Ventura, R., Barban, C., Bedding, T. R., Christensen-Dalsgaard, J., De Ridder, J., Hekker, S., Huber, D., Kallinger, T., Miglio, A., Montalban, J., Mosser, B., Stello, D., Uytterhoeven, K., Kinemuchi, K., Kjeldsen, H., Mullally, F., and Still, M.

Abstract

We present the results of the asteroseismic analysis of the red-giant star KIC 4351319 (TYC 3124-914-1), observed for 30 days in short-cadence mode with the Kepler satellite. The analysis has allowed us to determine the large and small frequency separations, and the frequency of maximum oscillation power. The high signal-to-noise ratio of the observations allowed us to identify 25 independent pulsation modes whose frequencies range approximately from 300 to 500 muHz. The observed oscillation frequencies together with the accurate determination of the atmospheric parameters (effective temperature, gravity and metallicity), provided by additional ground-based spectroscopic observations, enabled us to theoretically interpret the observed oscillation spectrum. KIC 4351319 appears to oscillate with a well defined solar-type p-modes pattern due to radial acoustic modes and non-radial nearly pure p modes. In addition, several non-radial mixed modes have been identified. Theoretical models well reproduce the observed oscillation frequencies and indicate that this star, located at the base of the ascending red-giant branch, is in the hydrogen-shell burning phase, with a mass of about 1.3 solar masses, a radius of about 3.4 solar radii and an age of about 5.6 Gyr. The main parameters of this star have been determined with an unprecedent level of precision for a red-giant star, with uncertainties of 2% for mass, 7% for age, 1% for radius, and 4% for luminosity., Comment: To be published on MNRAS. The definitive version will be available at www.blackwell-synergy.com

Published
2011
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198. Theoretical seismic properties of pre-main sequence gamma Doradus pulsators

Author

Bouabid, M. -P., Montalban, J., Miglio, A., Dupret, M. -A., Grigahcene, A., Noels, A., Bouabid, M. -P., Montalban, J., Miglio, A., Dupret, M. -A., Grigahcene, A., and Noels, A.

Abstract

Context. gamma Doradus (gamma Dor) are late A and F-type stars pulsating with high order gravity modes (g-modes). The existence of different evolutionary phases crossing the gamma Dor instability strip raises the question of the existence of pre-main sequence (PMS) gamma Dor stars. Aims. We intend to study the differences between the asteroseismic behaviour of PMS and main sequence (MS) gamma Dor pulsators as it is predicted by the current theory of stellar evolution and stability. Methods. We explore the adiabatic and non-adiabatic properties of high order g-modes in a grid of PMS and MS models covering the mass range 1.2 Msun < Mstar < 2.5 Msun. Results. We derive the theoretical instability strip (IS) for the PMS gamma Dor pulsators. This IS covers the same effective temperature range as the MS gamma Dor one. Nevertheless, the frequency domain of unstable modes in PMS models with a fully radiative core is larger than in MS models, even if they present the same number of unstable modes. Moreover, the differences between MS and PMS internal structures are reflected on the average values of the period spacing as well as on the dependence of the period spacing on the radial order of the modes, opening the window to the determination of the evolutionary phase of gamma Dor stars from their pulsation spectra., Comment: 9 pages, 17 figures, accepted for publication in A&A

Published
2011
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199. Mixed modes in red-giant stars observed with CoRoT

Author

Mosser, B., Barban, C., Montalban, J., Beck, P. G., Miglio, A., Belkacem, K., Goupil, M. J., Hekker, S., De Ridder, J., Dupret, M. A, Elsworth, Y., Noels, A., Baudin, F., Michel, E., Samadi, R., Auvergne, M., Baglin, A., Catala, C., Mosser, B., Barban, C., Montalban, J., Beck, P. G., Miglio, A., Belkacem, K., Goupil, M. J., Hekker, S., De Ridder, J., Dupret, M. A, Elsworth, Y., Noels, A., Baudin, F., Michel, E., Samadi, R., Auvergne, M., Baglin, A., and Catala, C.

Abstract

The CoRoT mission has provided thousands of red-giant light curves. The analysis of their solar-like oscillations allows us to characterize their stellar properties. Up to now, the global seismic parameters of the pressure modes remain unable to distinguish red-clump giants from members of the red-giant branch. As recently done with Kepler red giants, we intend to analyze and use the so-called mixed modes to determine the evolutionary status of the red giants observed with CoRoT. We also aim at deriving different seismic characteristics depending on evolution. The complete identification of the pressure eigenmodes provided by the red-giant universal oscillation pattern allows us to aim at the mixed modes surrounding the l=1 expected eigenfrequencies. A dedicated method based on the envelope autocorrelation function is proposed to analyze their period separation. We have identified the mixed-mode signature separation thanks to their pattern compatible with the asymptotic law of gravity modes. We have shown that, independent of any modelling, the g-mode spacings help to distinguish the evolutionary status of a red-giant star. We then report different seismic and fundamental properties of the stars, depending on their evolutionary status. In particular, we show that high-mass stars of the secondary clump present very specific seismic properties. We emphasize that stars belonging to the clump were affected by significant mass loss. We also note significant population and/or evolution differences in the different fields observed by CoRoT.

Published
2011
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200. CoRoT's view on variable B8/9 stars: spots versus pulsations: Evidence for differential rotation in HD 174648

Author

Degroote, P., Acke, B., Samadi, R., Aerts, C., Kurtz, D. W., Noels, A., Miglio, A., Montalban, J., Bloemen, S., Baglin, A., Baudin, F., Catala, C., Michel, E., Auvergne, M., Degroote, P., Acke, B., Samadi, R., Aerts, C., Kurtz, D. W., Noels, A., Miglio, A., Montalban, J., Bloemen, S., Baglin, A., Baudin, F., Catala, C., Michel, E., and Auvergne, M.

Abstract

Context. There exist few variability studies of stars in the region in the Hertzsprung-Russell diagram between the A and B-star pulsational instability strips. With the aid of the high precision continuous measurements of the CoRoT space satellite, low amplitudes are more easily detected, making a study of this neglected region worthwhile. Aims. We collected a small sample of B stars observed by CoRoT to determine the origin of the different types of variability observed. Methods. We combine literature photometry and spectroscopy to measure the fundamental parameters of the stars in the sample, and compare asteroseismic modelling of the light curves with (differentially rotating) spotted star models. Results. We found strong evidence for the existence of spots and differential rotation in HD 174648, and formulated hypotheses for their origin. We show that the distinction between pulsations and rotational modulation is difficult to make solely based on the light curve, especially in slowly rotating stars., Comment: 16 pages, 18 figures, accepted for publication by Astronomy and Astrophysics

Published
2011
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