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Interferometric Survey of Stellar Parameters

Description du projet

Étude des paramètres stellaires fondamentaux

Les progrès de la physique stellaire et des télescopes terrestres, ainsi que les nombreuses missions spatiales, ont facilité l’étude des structures internes et de l’environnement des étoiles. Le projet ISSP, financé par l’UE, mesurera les diamètres angulaires d’environ 1 000 étoiles de magnitude 8. Ce relevé astronomique offre une source primaire d’informations sur un large échantillon d’étoiles situées sur l’ensemble du diagramme de Hertzsprung-Russell. Le projet fournira également de nouvelles mesures de l’assombrissement du limbe et utilisera des techniques d’imagerie détaillées pour caractériser la surface d’environ 100 étoiles. Ces données permettront de développer de nouvelles relations entre la luminosité et la couleur de la surface qui pourraient s’avérer utiles pour les futures missions spatiales, telles que PLATO et ARIEL.

Objectif

Fundamental stellar parameters are the primary data required for an in-depth understanding of stars, their interiors, and their environments. With the progress of stellar physics and the prospects of ground facilities or space missions, it is critical to improve the accuracy, and quantity of such data. The development of exoplanet and asteroseismology domains is demanding direct data to eliminate any bias in the parameters. And finally, the differences between methods for determining the Hubble constant is motivating new and precise direct determination of distances on the primary candles of the cosmic scales. Many methods like asteroseismology, photometric transits of exoplanets, radial velocities, or Surface Brightness Colour (SBC) relations are linked to the stellar radius. Usually estimated through models, its determination by coupling an optical interferometric measurement of the angular diameter and, for example, a Gaia parallax, is the best way to avoid any model dependence. Furthermore, characterizing any activity (limb darkening, convection, rotation, spots, or binarity) is also mandatory, both for bias removal and for the required progress on stellar physics.
Through an ambitious and homogenous survey of the angular diameters of a thousand stars as faint as magnitude 8 in the visible and as small as 0.2 milliseconds of arc, my project is built to address key questions about the relation between planets and stars and to offer to the broader community a unique and primary source of direct information on a representative and large sample of stars all over the HR diagram. A few hundred of direct measurements of limb darkening will be accessible, and, for about 100 stars, activity characterization with a more detailed surface imaging will be possible. These data will also permit the development of new unbiased SBC relations to serve the faint targets of space missions like PLATO or ARIEL in the future and the distance scale within the Araucaria project.

Régime de financement

ERC-ADG - Advanced Grant

Institution d’accueil

OBSERVATOIRE DE LA COTE D'AZUR (OCA)
Contribution nette de l'UE
€ 2 692 447,00
Adresse
BOULEVARD DE L'OBSERVATOIRE
06304 Nice
France

Voir sur la carte

Région
Provence-Alpes-Côte d’Azur Provence-Alpes-Côte d’Azur Alpes-Maritimes
Type d’activité
Research Organisations
Liens
Coût total
€ 2 692 447,00

Bénéficiaires (1)