Exoplanets and Stellar Physics

Dynamical relaxation and the orbits of low-mass extrasolar planets

Monthly Notices of the Royal Astronomical Society 332:2 (2002)

Authors:

C Terquem, JCB Papaloizou

Abstract:

We consider the evolution of a system containing a population of massive planets formed rapidly through a fragmentation process occurring on a scale on the order of 100 au and a lower mass planet that assembles in a disc on a much longer time-scale. During the formation phase, the inner planet is kept on a circular orbit owing to tidal interaction with the disc, while the outer planets undergo dynamical relaxation. Interaction with the massive planets left in the system after the inner planet forms may increase the eccentricity of the inner orbit to high values, producing systems similar to those observed.

Abrupt Climate Change: Inevitable Surprises

National Academies Press, 2002

Authors:

Committee on Abrupt Climate Change, National Research Council, Board on Atmospheric Sciences and Climate, Division on Earth and Life Studies, Polar Research Board, Ocean Studies Board

Abstract:

Based on the best and most current research available, this book surveys the history of climate change and makes a series of specific recommendations for the future.

Dynamical relaxation and the orbits of low-mass extrasolar planets

(2002)

Authors:

Caroline Terquem, John CB Papaloizou

Bayesian detection of planetary transits a modified version of the Gregory-Loredo method for bayesian periodic signal detection

Astronomy and Astrophysics 395:2 (2002) 625-636

Authors:

S Aigrain, F Favata

Abstract:

The detection of planetary transits in stellar photometric light-curves is poised to become the main method for finding substantial numbers of terrestrial planets. The French-European mission COROT (foreseen for launch in 2005) will perform the first search on a limited number of stars, and larger missions Eddington (from ESA) and Kepler (from NASA) are planned for launch in 2007. Transit signals from terrestrial planets are small (ΔF/F ≃ 10-4), short (Δt ≃ 10 hours) dips, which repeat with periodicity of a few months, in time series lasting up to a few years. The reliable and automated detection of such signals in large numbers of light curves affected by different sources of noise is a statistical and computational challenge. We present a novel algorithm based on a Bayesian approach. The algorithm is based on the Gregory-Loredo method originally developed for the detection of pulsars in X-ray data. In the present paper the algorithm is presented, and its performance on simulated data sets dominated by photon noise is explored. In an upcoming paper the influence of additional noise sources (such as stellar activity) will be discussed.

CROMOS: A cryogenic near-infrared, multi-object spectrometer for the VLT

ESO ASTROPHY SYMP (2002) 118-127

Authors:

R Genzel, R Hofmann, D Tomono, N Thatte, F Eisenhauer, M Lehnert, M Tecza, R Bender

Abstract:

We discuss a cryogenic, multi-object near-infrared spectrometer as a second generation instrument for the VLT. The spectrometer combines 20 to 40 independent integral field units (IFUs), which can be positioned by a cryogenic robot over the entire unvignetted field of the VLT (similar to 7'). Each IFU consists of a contiguous cluster of 20 to 30 pixels (0.15 to 0.25" per pixel). The individual IFUs have cold fore-optics and couple into the spectrograph with integrated fibers-microlenses. The spectrometer has resolving power of lambda/Deltalambdasimilar to4000 and simultaneously covers the J-, H-, and K-bands with three HAWAII 2 detectors. The system is designed for operation both in seeing limited and MCAO modes. Its speed is approximately 3500 times greater than that of ISAAC and 60 times greater than NIRMOS (in H-band). The proposed instrument aims at a wide range of science, ranging from studies of galaxies/clusters in the high-z Universe (dynamics and star formation in z>1 galaxies, evolution of ellipticals, properties of distant, obscured far-IR and X-ray sources), to investigations of nearby starbursts, star clusters and properties of young low mass stars and brown dwarfs.