Inferred acoustic ratesof solar p-modes from several helioseismic instruments

William Chaplin; F Baudin; R Samadi; MJ Goupil; T Appourchaux; C Barban; P Boumier; P Gouttebroze

doi:10.1051/0004-6361:20041229

Inferred acoustic ratesof solar p-modes from several helioseismic instruments

William Chaplin, F Baudin, R Samadi, MJ Goupil, T Appourchaux, C Barban, P Boumier, P Gouttebroze

Physics and Astronomy

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49 Citations (Scopus)

Abstract

Acoustic rates of excitation of solar p modes can be estimated from observations in order to place constraints on the modelling of the excitation process and the layers where it occurs in the star. For several reasons ( including a poor signal to noise ratio and mode overlap), this estimation is difficult. In this work, we use three completely independent datasets to obtain robust estimates in the solar case for l = 1 modes. We also show that the height in the solar atmosphere where the modes are observed must be taken into account. Our three sets of results are shown to be consistent, particularly in the lower part of the p-mode spectrum ( from 1.8 mHz to 2.8 mHz). At higher frequencies, the agreement is not as good, because of a larger dispersion of the measurements and also because of some systematic differences which might be due to observation height estimation or to a systematic influence of the noise.

Original language	English
Pages (from-to)	349-356
Number of pages	8
Journal	Astronomy and Astrophysics
Volume	433
DOIs	https://doi.org/10.1051/0004-6361:20041229
Publication status	Published - 1 Apr 2005

Keywords

Sun : helioseismology
Sun : oscillation

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10.1051/0004-6361:20041229

Cite this

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title = "Inferred acoustic ratesof solar p-modes from several helioseismic instruments",

abstract = "Acoustic rates of excitation of solar p modes can be estimated from observations in order to place constraints on the modelling of the excitation process and the layers where it occurs in the star. For several reasons ( including a poor signal to noise ratio and mode overlap), this estimation is difficult. In this work, we use three completely independent datasets to obtain robust estimates in the solar case for l = 1 modes. We also show that the height in the solar atmosphere where the modes are observed must be taken into account. Our three sets of results are shown to be consistent, particularly in the lower part of the p-mode spectrum ( from 1.8 mHz to 2.8 mHz). At higher frequencies, the agreement is not as good, because of a larger dispersion of the measurements and also because of some systematic differences which might be due to observation height estimation or to a systematic influence of the noise.",

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T1 - Inferred acoustic ratesof solar p-modes from several helioseismic instruments

AU - Chaplin, William

AU - Baudin, F

AU - Samadi, R

AU - Goupil, MJ

AU - Appourchaux, T

AU - Barban, C

AU - Boumier, P

AU - Gouttebroze, P

PY - 2005/4/1

Y1 - 2005/4/1

N2 - Acoustic rates of excitation of solar p modes can be estimated from observations in order to place constraints on the modelling of the excitation process and the layers where it occurs in the star. For several reasons ( including a poor signal to noise ratio and mode overlap), this estimation is difficult. In this work, we use three completely independent datasets to obtain robust estimates in the solar case for l = 1 modes. We also show that the height in the solar atmosphere where the modes are observed must be taken into account. Our three sets of results are shown to be consistent, particularly in the lower part of the p-mode spectrum ( from 1.8 mHz to 2.8 mHz). At higher frequencies, the agreement is not as good, because of a larger dispersion of the measurements and also because of some systematic differences which might be due to observation height estimation or to a systematic influence of the noise.

AB - Acoustic rates of excitation of solar p modes can be estimated from observations in order to place constraints on the modelling of the excitation process and the layers where it occurs in the star. For several reasons ( including a poor signal to noise ratio and mode overlap), this estimation is difficult. In this work, we use three completely independent datasets to obtain robust estimates in the solar case for l = 1 modes. We also show that the height in the solar atmosphere where the modes are observed must be taken into account. Our three sets of results are shown to be consistent, particularly in the lower part of the p-mode spectrum ( from 1.8 mHz to 2.8 mHz). At higher frequencies, the agreement is not as good, because of a larger dispersion of the measurements and also because of some systematic differences which might be due to observation height estimation or to a systematic influence of the noise.

KW - Sun : helioseismology

KW - Sun : oscillation

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DO - 10.1051/0004-6361:20041229

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VL - 433

SP - 349

EP - 356

JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

ER -

Inferred acoustic ratesof solar p-modes from several helioseismic instruments

Abstract

Keywords

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