Exoplanets and Stellar Physics

Transiting exoplanets from the CoRoT space mission: XIII. CoRoT-13b: A dense hot Jupiter in transit around a star with solar metallicity and super-solar lithium content

Astronomy and Astrophysics 522:8 (2010)

Authors:

J Cabrera, H Bruntt, M Ollivier, RF Díaz, S Csizmadia, S Aigrain, R Alonso, JM Almenara, M Auvergne, A Baglin, P Barge, AS Bonomo, P Bordé, F Bouchy, L Carone, S Carpano, M Deleuil, HJ Deeg, R Dvorak, A Erikson, S Ferraz-Mello, M Fridlund, D Gandolfi, JC Gazzano, M Gillon, EW Guenther, T Guillot, A Hatzes, M Havel, G Hébrard, L Jorda, A Léger, A Llebaria, H Lammer, C Lovis, T Mazeh, C Moutou, A Ofir, P Von Paris, M Pätzold, D Queloz, H Rauer, D Rouan, A Santerne, J Schneider, B Tingley, R Titz-Weider, G Wuchterl

Abstract:

We announce the discovery of the transiting planet CoRoT-13b. Ground-based follow-up in CFHT and IAC80 confirmed CoRoT's observations. The mass of the planet was measured with the HARPS spectrograph and the properties of the host star were obtained analyzing HIRES spectra from the Keck telescope. It is a hot Jupiter-like planet with an orbital period of 4.04 days, 1.3 Jupiter masses, 0.9 Jupiter radii, and a density of 2.34 g cm-3. It orbits a G0V star with Teff = 5 945 K, M*= 1.09 M⊙, R*= 1.01 R⊙, solar metallicity, a lithium content of + 1.45 dex, and an estimated age of between 0.12 and 3.15 Gyr. The lithium abundance of the star is consistent with its effective temperature, activity level, and age range derived from the stellar analysis. The density of the planet is extreme for its mass, implies that heavy elements are present with a mass of between about 140 and 300 M⊕. © 2010 ESO.

MML 53: A new low-mass, pre-main sequence eclipsing binary in the Upper Centaurus-Lupus region discovered by SuperWASP

Astronomy and Astrophysics 522:2 (2010)

Authors:

L Hebb, HC Stempels, S Aigrain, A Collier-Cameron, ST Hodgkin, JM Irwin, PFL Maxted, D Pollacco, RA Street, DM Wilson, KG Stassun

Abstract:

We announce the discovery of a new low-mass, pre-main sequence eclipsing binary, MML 53. Previous observations of MML 53 found it to be a pre-main sequence spectroscopic multiple associated with the 15-22 Myr Upper Centaurus-Lupus cluster. We identify the object as an eclipsing binary for the first time through the analysis of multiple seasons of time series photometry from the SuperWASP transiting planet survey. Re-analysis of a single archive spectrum shows MML 53 to be a spatially unresolved triple system of young stars which all exhibit significant lithium absorption. Two of the components comprise an eclipsing binary with period, P = 2.097891(6) ± 0.000005 and mass ratio, q ∼ 0.8. Here, we present the analysis of the discovery data. © 2010 ESO.

ASTEP 400: A telescope designed for exoplanet transit detection from Dome C, Antarctica

Proceedings of SPIE - The International Society for Optical Engineering 7733:PART 1 (2010)

Authors:

JB Daban, C Gouvret, T Guillot, A Agabi, N Crouzet, JP Rivet, D Mekarnia, L Abe, E Bondoux, Y Fanteï-Caujolle, F Fressin, FX Schmider, F Valbousquet, PE Blanc, A Le Van Suu, H Rauer, A Erikson, F Pont, S Aigrain

Abstract:

The Concordia Base in Dome C, Antarctica, is an extremely promising site for photometric astronomy due to the 3-month long night during the Antarctic winter, favorable weather conditions, and low scintillation. The ASTEP project (Antarctic Search for Transiting ExoPlanets) is a pilot project which seeks to identify transiting planets and understand the limits of visible photometry from this site. ASTEP 400 is an optical 40cm telescope with a field of view of 1° × 1°. The expected photometric sensitivity is 1E-3, per hour for at least 1,000 stars. The optical design guarantees high homogeneity of the PSF sizes in the field of view. The use of carbon fibers in the telescope structure guarantees high stability. The focal optics and the detectors are enclosed in a thermally regulated box which withstands extremely low temperatures. The telescope designed to run at -80°C (-110°F) was set up at Dome C during the southern summer 2009-2010. It began its nightly observations in March 2010. © 2010 SPIE.

Adaptive optics systems for HARMONI: A visible and near-infrared integral field spectrograph for the E-ELT

Proceedings of SPIE - The International Society for Optical Engineering 7736:PART 1 (2010)

Authors:

T Fusco, N Thatte, S Meimon, M Tecza, F Clarke, M Swinbank

Abstract:

HARMONI is a visible and near-infrared integral field spectrograph for the E-ELT. It needs to work at diffraction limited scales. This will be possible thanks to two adaptive optics systems, complementary to each other. Both systems will make use of the telescope's adaptive M4 and M5 mirrors. The first one is a simple but efficient Single Conjugate AO system (good performance, low sky coverage), fully integrated in HARMONI itself. The second one is a Laser Tomographic AO system (medium performance, very good sky coverage). We present the overall design of the SCAO system and discuss the complementary between SCAO and LTAO for HARMONI. © 2010 SPIE.

System study of EPICS, the exoplanets imager for the E-ELT

Proceedings of SPIE - The International Society for Optical Engineering 7736:PART 1 (2010)

Authors:

C Vérinaud, M Kasper, JL Beuzit, RG Gratton, D Mesa, E Aller-Carpentier, E Fedrigo, L Abe, P Baudoz, A Boccaletti, M Bonavita, K Dohlen, N Hubin, F Kerber, V Korkiakoski, J Antichi, P Martinez, P Rabou, R Roelfsema, HM Schmid, N Thatte, G Salter, M Tecza, L Venema, H Hanenburg, R Jager, N Yaitskova, O Preis, M Orecchia, E Stadler

Abstract:

ESO and a large European consortium completed the phase-A study of EPICS, an instrument dedicated to exoplanets direct imaging for the EELT. The very ambitious science goals of EPICS, the imaging of reflected light of mature gas giant exoplanets around bright stars, sets extremely strong requirements in terms of instrumental contrast achievable. The segmented nature of an ELT appears as a very large source of quasi-static high order speckles that can impair the detection of faint sources with small brightness contrast with respect to their parent star. The paper shows how the overall system has been designed in order to maximize the efficiency of quasi-static speckles rejection by calibration and post-processing using the spectral and polarization dependency of light waves. The trade-offs that led to the choice of the concepts for common path and diffraction suppression system is presented. The performance of the instrument is predicted using simulations of the extreme Adaptive Optics system and polychromatic wave-front propagation through the various optical elements. © 2010 SPIE.