RICHARD Olivier
Team: Astrophysique Stellaire
olivier.richard
umontpellier.fr
0467144736
Room: , Floor: 4, Build.: 13
Research Topics: - phys/phys.astr/phys.astr.sr
- phys/phys.astr
- sdu/sdu.astr/sdu.astr.sr
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Last scientific productions :
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Lithium depletion and angular momentum transport in solar-type stars
Author(s): Dumont T., Palacios A., Charbonnel C., Richard O., Amard L., Augustson K., Mathis S.
(Article) Published:
Astronomy & Astrophysics, vol. 646 p.A48 (2021)
DOI: 10.1051/0004-6361/202039515
Abstract: Context. Transport processes occurring in the radiative interior of solar-type stars are evidenced by the surface variation of light
elements, in particular 7Li, and the evolution of their rotation rates. For the Sun, inversions of helioseismic data indicate that the
radial profile of angular velocity in its radiative zone is nearly uniform, which implies the existence of angular momentum transport
mechanisms that are efficient over evolutionary timescales. While there are many independent transport models for angular momentum
and chemical species, there is a lack of self-consistent theories that permit stellar evolution models to simultaneously match the
present-day observations of solar lithium abundances and radial rotation profiles.
Aims. We explore how additional transport processes can improve the agreement between evolutionary models of rotating stars and
observations for 7Li depletion, the rotation evolution of solar-type stars, and the solar rotation profile.
Methods. Models of solar-type stars are computed including atomic diffusion and rotation-induced mixing with the code STAREVOL.
We explore different additional transport processes for chemicals and for angular momentum such as penetrative convection,
tachocline mixing, and additional turbulence. We constrain the resulting models by simultaneously using the evolution of the sur-
face rotation rate and 7Li abundance in the solar-type stars of open clusters with different ages, and the solar surface and internal
rotation profile as inverted from helioseismology when our models reach the age of the Sun.
Results. We show the relevance of penetrative convection for the depletion of 7Li in pre-main sequence and early main sequence
stars. The rotational dependence of the depth of penetrative convection yields an anti-correlation between the initial rotation rate and7Li depletion in our models of solar-type stars that is in agreement with the observed trend. Simultaneously, the addition of an ad hoc
vertical viscosity νadd leads to efficient transport of angular momentum between the core and the envelope during the main sequence
evolution and to solar-type models that match the observed profile of the Sun. We also self-consistently compute for the first time the
thickness of the tachocline and find that it is compatible with helioseismic estimations at the age of the Sun, but we highlight that the
associated turbulence does not allow the observed 7Li depletion to be reproduced. The main sequence depletion of 7Li in solar-type
stars is only reproduced when adding a parametric turbulent mixing below the convective envelope.
Conclusions. The need for additional transport processes in stellar evolution models for both chemicals and angular momentum in
addition to atomic diffusion, meridional circulation, and turbulent shear is confirmed. We identify the rotational dependence of the
penetrative convection as a key process. Two additional and distinct parametric turbulent mixing processes (one for angular momentum
and one for chemicals) are required to simultaneously explain the observed surface 7Li depletion and the solar internal rotation profile.
We highlight the need of additional constraints for the internal rotation of young solar-type stars and also for the beryllium abundances
of open clusters in order to test our predictions.
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Combining multiple structural inversions to constrain the solar modelling problem
Author(s): Buldgen G., Salmon S., Noels A., Scuflaire R., Montalbán J., Baturin A., Eggenberger P., Gryaznov V., Iosilevskiy I., Meynet G., Chaplin J., Miglio A., Oreshina A., Richard O., Starostin A.
(Article) Published:
Astronomy & Astrophysics, vol. 621 p.A33 (2019)
Links openAccess full text :
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Hydrodynamical Instabilities Induced by Atomic Diffusion in F and A Stars
Author(s): Deal M., Richard O., Vauclair S.
Conference: Workshop on Astrophysical Opacities (Kalamazoo, US, 2017-08)
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Important consequences of atomic diffusion inside main-sequence stars: opacities, extra-mixing, oscillations
Author(s): Deal M., Vauclair S., Richard O.
(Posters)
Wide-Field Variability Surveys: A 21st Century Perspective - 22nd Los Alamos Stellar Pulsation - Conference Series Meeting (San Pedro de Atacama, CL), 2017 |
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Hydrodynamical instabilities induced by atomic diffusion in F and A stars : Impact on the opacity profile and asteroseimic age determination
Author(s): Deal M., Richard O., Vauclair S.
Conference: SF2A-2017 (Paris, FR, 2017-07)
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