INTRO 

Introduction and objectives of the meeting 
M.J.Goupil 

SESION I 

The role of limb darkening in the analysis of exoplanetary transit light curves
One of the primary goals of the future PLATOmission is to determine the radius of the exoplanets with 3% accuracy, which requires determining from the photometry the planettostar radius ratio with 2% uncertainty.
Several effects impact on the precision of the radius ratio measurement: instrumental noise, stellar activity, contamination, and limb darkening. Stellar activity has a direct impact on the precision via affecting the baseline determination and an indirect impact via modifying the limb darkening coefficients.
In this talk I summarize:
(1) The important impact of limb darkening on PLATO's primary goals.
(2) The required accuracy in the knowledge of limb darkening profiles.
(3) A short overview of recent developments in the understanding and characterization of limb darkening and possible future improvements.
(4) the importance of stellar activity in limb darkening calculations.

S. Csizmadia 


The power2 limb darkening law  implementation and confrontation with observations
The power2 limbdarkening law does a good job of matching the limb darkening profile from model atmospheres for solartype stars using only two parameters. I will present the results of comparing the parameters of the power2 limbdarkening law from the STAGGERgrid to empirical values determined from the Kepler light curves of transiting exoplanets. I will also describe an very fast method to calculate light curves for the power2 limb darkening law. Finally, I will discuss briefly the effect of magnetic fields on the limbdarkening profile and whether this is an observable effect.

P. Maxted 


Stellar radii from interferometry
presentation on "Stellar radii from interferometry", speaking about angular diameter measurements, limb darkening measurements and estimations.

D. Mourard 


A high angular resolution point of view on exoplanets and spots
Stellar activity, and specifically magnetic spots and granulation patterns, are known to perturb the determination of stellar parameters and the detection of exoplanets. In particular, activity can bias the direct measurement of angular diameters using interferometry.
Can we quantify this bias? If the spotted star hosts a transiting exoplanet, what is the impact on the determination of its parameters? Through recent results from observations and models, I will show that the signature of activity can be significant on the stellar parameters determination, but that the future should bring some insights to solve this difficult problem.

R. Ligi 


Constraining limb darkening from young active solar analog stars
Light curve modulations of cool stars are the result of spots crossing the visible stellar disc. Due to differential rotation, spots at different latitudes have different rotation periods. In order to accurately model a star’s rotation profile, it is necessary to consider the effects of limbdarkening on the stellar surface. Constrain parameters of limbdarkening and differential rotation using spot modelling. We use the macula starspot model together with MultiNest sampling algorithm to sample the posterior probability distribution of the parameter space. We are able to reproduce the known results for κ1 Ceti, a young solar analog observed by MOST, and we extend the method to active solar analog stars in the intermediateage open cluster NGC 6811. We choose time windows from the 4 year long Kepler light curves in order to reduce the computational complexity. This method could be useful for identifying trends in differential rotation and limbdarkening as a function of mass and age for solartype dwarfs observed by PLATO.

J. D. Do
Nascimento 

SESSION II 

Solar limb darkening: observations and models 
S. Solanki 


A fast allinone code for synthesising stellar spectra based on ATLAS9
The recent focus on stellar observations and exoplanet detections leads to an immense increase in available accurate photometric measurements. In order to analyse and interpret the collected data, comprehensive and fast spectral synthesis in broad spectral intervals is essential. For this purpose we chose to build on the ATLAS9 and DFSYNTHE codes. They include all crucial physics for mainsequence stars while keeping the setup simple. The aim is to develop an allinone tool that is accurate, fast and flexible for simulating stellar spectra and their centertolimb variations with various fundamental stellar parameters and with different spectral resolutions. Furthermore, a fast treatment for passband filters such as the PLATO, Kepler, or Tess filter, will be included. To achieve this goal we merged the DFSYNTHE code, which calculates highresolution opacities used to generate opacity distribution functions (ODFs), with the ATLAS9 code that can calculate both the atmospheric structures as well as the emergent spectra. The so obtained tool was further parallelised to speed up the high resolution opacity calculations. Furthermore, we included a more flexible treatment of the ODFs: The frequency resolution can be chosen, a spectral filter included, and the linelists exchanged. We will include the most updated VALD linelist.
Thus this code can be used to analyse observed stars, as it allows very fast spectral synthesis for any mainsequence star. Furthermore, we will use it for a new generation of models based on realistic threedimensional radiation magnetohydrodynamic simulations of atmospheres. Such models can be used to investigate realistic contrast for magnetic features on different stars by calculating emergent spectra from three dimensional (3D) cubes of nearsurface magneto convection.

A. Shapiro 

SESSION III 

Centertolimb variation calculations based on 1D model atmospheres
Present CLV computations with the MARCS/Turbospectrum suite. Discuss preliminary comparisons with solar observations.

B. Plez 


Centertolimb variation calculations based on 3D model atmospheres
In this talk, I will review recent results in the field of threedimensional (3D) simulations of surface convection in solar and latetype stars. I will focus on the application of such simulations as timedependent 3D model stellar atmospheres in calculations of synthetic spectra, centretolimb variations, and interferometric observables. I will illustrate the differences between the predictions of 3D and 1D models and the impact of limb darkening calculations with 3D models on the interpretation of interferometric and exoplanet transit observations.

R. Collet 


Discussion 
B. Plez 

SESION IV 

Gravity and limbdarkening for space missions (CoRoT, Kepler, MOST, TESS) and plans for PLATO 
J.C. Suarez 


Discussion 
T. Morel 


Wrapup discussion 
M.J.Goupil 

SOCIAL 

Social 
M.J. Goupil 
