Cepheid limb darkening, angular diameter corrections, and projection factor from static spherical model stellar atmospheres

Context. One challenge for measuring the Hubble constant using classical Cepheids is the calibration of the Leavitt law or period–luminosity relationship. The Baade-Wesselink method for distance determination to Cepheids relies on the ratio of the measured radial velocity and pulsation velocity, the...

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Published inAstronomy and astrophysics (Berlin) Vol. 541; p. A134
Main Authors Neilson, H. R., Nardetto, N., Ngeow, C.-C., Fouqué, P., Storm, J.
Format Journal Article
LanguageEnglish
Published Les Ulis EDP Sciences 01.05.2012
Subjects
Astronomy
Astrophysics
Earth, ocean, space
Exact sciences and technology
Sciences of the Universe
stars: atmospheres
stars: distances
stars: variables: Cepheids
Spherical symmetry
stars: atmospheres
Atlas
Atmosphere model
Cepheids
Intensity
Luminosity
Mass loss
Spherical model
Star models
stars: variables: Cepheids
Angular diameter
Interferometric observation
Radial pulsation
Static model
Limb darkening
stars: distances
Hubble constant
Distance measurement
Radial velocity
Corrections
Hydrostatic model
Online AccessGet full text
ISSN0004-6361
1432-0746
DOI10.1051/0004-6361/201118550

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Abstract Context. One challenge for measuring the Hubble constant using classical Cepheids is the calibration of the Leavitt law or period–luminosity relationship. The Baade-Wesselink method for distance determination to Cepheids relies on the ratio of the measured radial velocity and pulsation velocity, the so-called projection factor and the ability to measure the stellar angular diameters. Aims. We use spherically-symmetric model stellar atmospheres to explore the dependence of the p-factor and angular diameter corrections as a function of pulsation period. Methods. Intensity profiles are computed from a grid of plane-parallel and spherically-symmetric model stellar atmospheres using the SAtlas code. Projection factors and angular diameter corrections are determined from these intensity profiles and compared to previous results. Results. Our predicted geometric period–projection factor relation including previously published state-of-the-art hydrodynamical predictions is not with recent observational constraints. We suggest a number of potential resolutions to this discrepancy. The model atmosphere geometry also affects predictions for angular diameter corrections used to interpret interferometric observations, suggesting corrections used in the past underestimated Cepheid angular diameters by 3–5%. Conclusions. While spherically-symmetric hydrostatic model atmospheres cannot resolve differences between projection factors from theory and observations, they do help constrain underlying physics that must be included, including chromospheres and mass loss. The models also predict more physically-based limb-darkening corrections for interferometric observations.
AbstractList Context. One challenge for measuring the Hubble constant using classical Cepheids is the calibration of the Leavitt law or period–luminosity relationship. The Baade-Wesselink method for distance determination to Cepheids relies on the ratio of the measured radial velocity and pulsation velocity, the so-called projection factor and the ability to measure the stellar angular diameters. Aims. We use spherically-symmetric model stellar atmospheres to explore the dependence of the p-factor and angular diameter corrections as a function of pulsation period. Methods. Intensity profiles are computed from a grid of plane-parallel and spherically-symmetric model stellar atmospheres using the SAtlas code. Projection factors and angular diameter corrections are determined from these intensity profiles and compared to previous results. Results. Our predicted geometric period–projection factor relation including previously published state-of-the-art hydrodynamical predictions is not with recent observational constraints. We suggest a number of potential resolutions to this discrepancy. The model atmosphere geometry also affects predictions for angular diameter corrections used to interpret interferometric observations, suggesting corrections used in the past underestimated Cepheid angular diameters by 3–5%. Conclusions. While spherically-symmetric hydrostatic model atmospheres cannot resolve differences between projection factors from theory and observations, they do help constrain underlying physics that must be included, including chromospheres and mass loss. The models also predict more physically-based limb-darkening corrections for interferometric observations.
Author Storm, J.
Fouqué, P.
Neilson, H. R.
Ngeow, C.-C.
Nardetto, N.
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Keywords Spherical symmetry
stars: atmospheres
Atlas
Atmosphere model
Cepheids
Intensity
Luminosity
Mass loss
Spherical model
Star models
stars: variables: Cepheids
Angular diameter
Interferometric observation
Radial pulsation
Static model
Limb darkening
stars: distances
Hubble constant
Distance measurement
Radial velocity
Corrections
Hydrostatic model
Language English
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Notes e-mail: hneilson@astro.uni-bonn.de
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Snippet Context. One challenge for measuring the Hubble constant using classical Cepheids is the calibration of the Leavitt law or period–luminosity relationship. The...
Context. One challenge for measuring the Hubble constant using classical Cepheids is the calibration of the Leavitt law or period-luminosity relationship. The...
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SubjectTerms Astronomy
Astrophysics
Earth, ocean, space
Exact sciences and technology
Sciences of the Universe
stars: atmospheres
stars: distances
stars: variables: Cepheids
Title Cepheid limb darkening, angular diameter corrections, and projection factor from static spherical model stellar atmospheres
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