Radiative properties of stellar plasmas and open challenges

S. Turck-Chièze; G. Loisel; D. Gilles; L. Piau; C. Blancard; T. Blenski; M. Busquet; T. Caillaud; P. Cossé; F. Delahaye; G. Faussurier; J. Fariaut; F. Gilleron; J. A. Guzik; J. Harris; D. P. Kilcrease; N. H. Magee; J. C. Pain; Q. Porcherot; M. Poirier; G. Soullier; C. J. Zeippen; S. Bastiani-Ceccotti; C. Reverdin; V. Silvert; F. Thais; B. Villette

doi:10.1007/s10509-010-0583-8

Radiative properties of stellar plasmas and open challenges

S. Turck-Chièze, G. Loisel, D. Gilles, L. Piau, C. Blancard, T. Blenski, M. Busquet, T. Caillaud, P. Cossé, F. Delahaye, G. Faussurier, J. Fariaut, F. Gilleron, J. A. Guzik, J. Harris, D. P. Kilcrease, N. H. Magee, J. C. Pain, Q. Porcherot, M. PoirierG. Soullier, C. J. Zeippen, S. Bastiani-Ceccotti, C. Reverdin, V. Silvert, F. Thais, B. Villette

Research output: Contribution to journal › Article › peer-review

Abstract

The lifetime of solar-like stars, the envelope structure of more massive stars, and stellar acoustic frequencies largely depend on the radiative properties of the stellar plasma. Up to now, these complex quantities have been estimated only theoretically. The development of the powerful tools of helio- and astero- seismology has made it possible to gain insights on the interiors of stars. Consequently, increased emphasis is now placed on knowledge of the monochromatic opacity coefficients. Here we review how these radiative properties play a role, and where they are most important. We then concentrate specifically on the envelopes of β Cephei variable stars. We discuss the dispersion of eight different theoretical estimates of the monochromatic opacity spectrum and the challenges we need to face to check these calculations experimentally.

Original language	English
Pages (from-to)	103-109
Number of pages	7
Journal	Astrophysics and Space Science
Volume	336
Issue number	1
DOIs	https://doi.org/10.1007/s10509-010-0583-8
Publication status	Published - 1 Jan 2011
Externally published	Yes

Keywords

Atomic processes
Cepheids stars: variables
Stars: asteroseismology
Stars: interiors
Sun: helioseismology

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10.1007/s10509-010-0583-8

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Turck-Chièze, S., Loisel, G., Gilles, D., Piau, L., Blancard, C., Blenski, T., Busquet, M., Caillaud, T., Cossé, P., Delahaye, F., Faussurier, G., Fariaut, J., Gilleron, F., Guzik, J. A., Harris, J., Kilcrease, D. P., Magee, N. H., Pain, J. C., Porcherot, Q., ... Villette, B. (2011). Radiative properties of stellar plasmas and open challenges. Astrophysics and Space Science, 336(1), 103-109. https://doi.org/10.1007/s10509-010-0583-8

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title = "Radiative properties of stellar plasmas and open challenges",

abstract = "The lifetime of solar-like stars, the envelope structure of more massive stars, and stellar acoustic frequencies largely depend on the radiative properties of the stellar plasma. Up to now, these complex quantities have been estimated only theoretically. The development of the powerful tools of helio- and astero- seismology has made it possible to gain insights on the interiors of stars. Consequently, increased emphasis is now placed on knowledge of the monochromatic opacity coefficients. Here we review how these radiative properties play a role, and where they are most important. We then concentrate specifically on the envelopes of β Cephei variable stars. We discuss the dispersion of eight different theoretical estimates of the monochromatic opacity spectrum and the challenges we need to face to check these calculations experimentally.",

keywords = "Atomic processes, Cepheids stars: variables, Stars: asteroseismology, Stars: interiors, Sun: helioseismology",

author = "S. Turck-Chi{\`e}ze and G. Loisel and D. Gilles and L. Piau and C. Blancard and T. Blenski and M. Busquet and T. Caillaud and P. Coss{\'e} and F. Delahaye and G. Faussurier and J. Fariaut and F. Gilleron and Guzik, \{J. A.\} and J. Harris and Kilcrease, \{D. P.\} and Magee, \{N. H.\} and Pain, \{J. C.\} and Q. Porcherot and M. Poirier and G. Soullier and Zeippen, \{C. J.\} and S. Bastiani-Ceccotti and C. Reverdin and V. Silvert and F. Thais and B. Villette",

year = "2011",

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day = "1",

doi = "10.1007/s10509-010-0583-8",

language = "English",

volume = "336",

pages = "103--109",

journal = "Astrophysics and Space Science",

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Turck-Chièze, S, Loisel, G, Gilles, D, Piau, L, Blancard, C, Blenski, T, Busquet, M, Caillaud, T, Cossé, P, Delahaye, F, Faussurier, G, Fariaut, J, Gilleron, F, Guzik, JA, Harris, J, Kilcrease, DP, Magee, NH, Pain, JC, Porcherot, Q, Poirier, M, Soullier, G, Zeippen, CJ, Bastiani-Ceccotti, S, Reverdin, C, Silvert, V, Thais, F & Villette, B 2011, 'Radiative properties of stellar plasmas and open challenges', Astrophysics and Space Science, vol. 336, no. 1, pp. 103-109. https://doi.org/10.1007/s10509-010-0583-8

TY - JOUR

T1 - Radiative properties of stellar plasmas and open challenges

AU - Turck-Chièze, S.

AU - Loisel, G.

AU - Gilles, D.

AU - Piau, L.

AU - Blancard, C.

AU - Blenski, T.

AU - Busquet, M.

AU - Caillaud, T.

AU - Cossé, P.

AU - Delahaye, F.

AU - Faussurier, G.

AU - Fariaut, J.

AU - Gilleron, F.

AU - Guzik, J. A.

AU - Harris, J.

AU - Kilcrease, D. P.

AU - Magee, N. H.

AU - Pain, J. C.

AU - Porcherot, Q.

AU - Poirier, M.

AU - Soullier, G.

AU - Zeippen, C. J.

AU - Bastiani-Ceccotti, S.

AU - Reverdin, C.

AU - Silvert, V.

AU - Thais, F.

AU - Villette, B.

PY - 2011/1/1

Y1 - 2011/1/1

N2 - The lifetime of solar-like stars, the envelope structure of more massive stars, and stellar acoustic frequencies largely depend on the radiative properties of the stellar plasma. Up to now, these complex quantities have been estimated only theoretically. The development of the powerful tools of helio- and astero- seismology has made it possible to gain insights on the interiors of stars. Consequently, increased emphasis is now placed on knowledge of the monochromatic opacity coefficients. Here we review how these radiative properties play a role, and where they are most important. We then concentrate specifically on the envelopes of β Cephei variable stars. We discuss the dispersion of eight different theoretical estimates of the monochromatic opacity spectrum and the challenges we need to face to check these calculations experimentally.

AB - The lifetime of solar-like stars, the envelope structure of more massive stars, and stellar acoustic frequencies largely depend on the radiative properties of the stellar plasma. Up to now, these complex quantities have been estimated only theoretically. The development of the powerful tools of helio- and astero- seismology has made it possible to gain insights on the interiors of stars. Consequently, increased emphasis is now placed on knowledge of the monochromatic opacity coefficients. Here we review how these radiative properties play a role, and where they are most important. We then concentrate specifically on the envelopes of β Cephei variable stars. We discuss the dispersion of eight different theoretical estimates of the monochromatic opacity spectrum and the challenges we need to face to check these calculations experimentally.

KW - Atomic processes

KW - Cepheids stars: variables

KW - Stars: asteroseismology

KW - Stars: interiors

KW - Sun: helioseismology

U2 - 10.1007/s10509-010-0583-8

DO - 10.1007/s10509-010-0583-8

M3 - Article

AN - SCOPUS:80555135515

SN - 0004-640X

VL - 336

SP - 103

EP - 109

JO - Astrophysics and Space Science

JF - Astrophysics and Space Science

IS - 1

ER -

Radiative properties of stellar plasmas and open challenges

Abstract

Keywords

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