P. Gouttebroze scite author profile

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 = 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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Formation of helium spectrum in solar quiescent prominences

Labrosse

Gouttebroze

2001

A&A

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Abstract. We present new non-LTE modelling of the helium spectrum emitted by quiescent solar prominences. The calculations are made in the frame of a one-dimensional plane-parallel slab. The physical parameters of our models are the electron temperature, the gas pressure, the slab width, the microturbulent velocity and the height above the solar surface. In this paper, we present isothermal isobaric models for a large range of temperature and pressure values. This work brings considerable improvements over the calculations of Heasley and co-workers (Heasley et al. 1974;Heasley & Milkey 1976, 1978, 1983 with the inclusion in our calculations of partial redistribution effects in the formation of the H i Lyα, Lyβ, He i λ 584Å and He ii λ 304Å lines. In addition we consider detailed incident profiles for the principal transitions. The statistical equilibrium equations are solved for a 33 bound levels (He i and He ii) plus continuum atom, and the radiative transfer equations are solved by the Feautrier method with variable Eddington factors. In this way we obtain the helium level populations and the emergent line profiles. We discuss the influence of the physical parameters on the helium level populations and on the main helium spectral lines. The effect of helium abundance in the prominence plasma is also studied. Some relations between singlet and triplet lines are given, as well as between optically thin or thick lines, He i and He ii lines, and between the He i λ 5876Å and H i λ 4863Å lines. In a future work this numerical code will be used for the diagnostic of the prominence plasma by comparing the results with SUMER observations.

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Non‐LTE Radiative Transfer in Model Prominences. I. Integrated Intensities of HeiTriplet Lines

Labrosse

Gouttebroze

2004

ApJ

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P. Gouttebroze

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Inferred acoustic rates of solarp modes from several helioseismic instruments

Formation of helium spectrum in solar quiescent prominences

Non‐LTE Radiative Transfer in Model Prominences. I. Integrated Intensities of HeiTriplet Lines

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