Your search keyword '"Fressin, F."' showing total 4 results

1. ASTEP South: a first photometric analysis

Author

Crouzet, N., Guillot, T., M��karnia, D., Szul��gyi, J., Abe, L., Agabi, A., Fante��-Caujolle, Y., Gon��alves, I., Barbieri, M., Schmider, F. -X., Rivet, J. -P., Bondoux, E., Challita, Z., Pouzenc, C., Fressin, F., Valbousquet, F., Blazit, A., Bonhomme, S., Daban, J. -B., Gouvret, C., Bayliss, D., Zhou, G., and team, the ASTEP

Subjects

Earth and Planetary Astrophysics (astro-ph.EP), Phase (waves), FOS: Physical sciences, Binary number, Astronomy and Astrophysics, Astrophysics, Radial velocity, Photometry (optics), Quality (physics), Space and Planetary Science, Planet, Magnitude (astronomy), Short exposure, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Geology, Astrophysics - Earth and Planetary Astrophysics

Abstract

The ASTEP project aims at detecting and characterizing transiting planets from Dome C, Antarctica, and qualifying this site for photometry in the visible. The first phase of the project, ASTEP South, is a fixed 10 cm diameter instrument pointing continuously towards the celestial South pole. Observations were made almost continuously during 4 winters, from 2008 to 2011. The point-to-point RMS of 1-day photometric lightcurves can be explained by a combination of expected statistical noises, dominated by the photon noise up to magnitude 14. This RMS is large, from 2.5 mmag at R=8 to 6% at R=14, because of the small size of ASTEP South and the short exposure time (30 s). Statistical noises should be considerably reduced using the large amount of collected data. A 9.9-day period eclipsing binary is detected, with a magnitude R=9.85. The 2-season lightcurve folded in phase and binned into 1000 points has a RMS of 1.09 mmag, for an expected photon noise of 0.29 mmag. The use of the 4 seasons of data with a better detrending algorithm should yield a sub-millimagnitude precision for this folded lightcurve. Radial velocity follow-up observations are conducted and reveal a F-M binary system. The detection of this 9.9-day period system with a small instrument such as ASTEP South and the precision of the folded lightcurve show the quality of Dome C for continuous photometric observations, and its potential for the detection of planets with orbital period longer than those usually detected from the ground., Comment: 5 pages, 3 figures, IAUS 288 conference proceedings

Published

2012

2. Time domain astronomy from Dome C: results from ASTEP

Author

Rivet, J.-P., primary, Abe, L., additional, Agabi, K., additional, Barbieri, M., additional, Crouzet, N., additional, Goncalves, I., additional, Guillot, T., additional, Mekarnia, D., additional, Szulagyi, J., additional, Daban, J.-B., additional, Gouvret, C., additional, Fantei-Caujolle, Y., additional, Schmider, F.-X., additional, Furth, T., additional, Erikson, A., additional, Rauer, H., additional, Fressin, F., additional, Alapini, A., additional, Pont, F., additional, and Aigrain, S., additional

Published

2012

3. Stellar coronagraphy: two mono-axial configurations for the Achromatic Interfero Coronagraph

Author

Gay, J., primary, Rivet, J. P., additional, Rabbia, Y., additional, Cassar, G., additional, Buisset, C., additional, Fressin, F., additional, and Lepine, T., additional

Published

2005

4. Detection of Pegasides: a ground-based approach and preliminary observations

Author

Gay, J., primary, Rivet, J.P., additional, Rabbia, Y., additional, and Fressin, F., additional

Published

2005