Exoplanets and Stellar Physics

Intense star formation and feedback at high redshift: Spatially resolved properties of the z = 2.6 submillimeter galaxy SMM J14011+02521

Astrophysical Journal 657:2 I (2007) 725-737

Authors:

NPH Nesvadba, MD Lehnert, R Genzel, F Eisenhauer, AJ Baker, S Seitz, R Davies, D Lutz, L Tacconi, M Tecza, R Bender, R Abuter

Abstract:

We present a detailed analysis of the spatially resolved properties of the lensed submillimeter galaxy (SMG) SMM J14011+0252 atz = 2.56, combining deep near-infrared integral-field data obtained with SPIFFI on the VLT with other multiwavelength data sets. As previously discussed by other authors, the broad characteristics of SMM J14011+0252 in particular and submillimeter galaxies in general are in agreement with what is expected for the early evolution of local massive spheroidal galaxies. From continuum and line flux, velocity, and dispersion maps, we measure the kinematics, star formation rates, gas densities, and extinction for individual subcomponents. The star formation intensity is similar to low-redshift "maximal starbursts," while the line fluxes and the dynamics of the emission line gas provide direct evidence for a starburst-driven wind with physical properties very similar to local superwinds. We also find circumstantial evidence for "self-regulated" star formation within J1. The relative velocity of the bluer companion J2 yields a dynamical mass estimate for J1 within ∼20 kpc of Mdyn ∼ 1 × 1011 M⊙. The relative metallicity of J2 is 0.4 dex lower than in J1n/J1s, suggesting different star formation histories. Spectral energy distribution fitting of the continuum peak J1c confirms and substantiates previous suggestions that this component is a z = 0.25 interloper. When removing J1c, the stellar continuum and Hα line emission appear well aligned spatially in two individual components, J1n and J1s, and coincide with two kinematically distinct regions in the velocity map, which might well indicate a merging system. This highlights the close similarity between SMGs and ultraluminous infrared galaxies (ULIRGs), which are often mergerdriven maximal starbursts, and suggests that the intrinsic mechanisms of star formation and related feedback are in fact similar to low-redshift strongly star-forming systems. © 2007. The American Astronomical Society. All rights reserved.

The Monitor project: Rotation of low-mass stars in the open cluster NGC 2516

(2007)

Authors:

Jonathan Irwin, Simon Hodgkin, Suzanne Aigrain, Leslie Hebb, Jerome Bouvier, Cathie Clarke, Estelle Moraux, DM Bramich

The CoRoT exoplanet programme: exploring the gas-giant/terrestrial planet transition

(2007)

Authors:

S Aigrain, P Barge, M Deleuil, F Fressin, C Moutou, D Queloz, M Auvergne, A Baglin, the CoRoT Exoplanet Science Team

Examples of new evolved planetary nebulae from the SuperCOSMOS H-alpha survey

Anglo-Australian Observatory Epping Newsletter 111 (2007) 22-22

Authors:

Jayne Birkby, Quentin Parker, Brent Miszalski, Agnes Acker, David Frew

Efficient identification of exoplanetary transit candidates from SuperWASP light curves

Monthly Notices of the Royal Astronomical Society 380:3 (2007) 1230-1244

Authors:

AC Cameron, DM Wilson, RG West, L Hebb, XB Wang, S Aigrain, F Bouchy, DJ Christian, WI Clarkson, B Enoch, M Esposito, E Guenther, CA Haswell, G Hébrard, C Hellier, K Horne, J Irwin, SR Kane, B Loeillet, TA Lister, P Maxted, M Mayor, C Moutou, N Parley, D Pollacco, F Pont, D Queloz, R Ryans, I Skillen, RA Street, S Udry, PJ Wheatley

Abstract:

Transiting extrasolar planets constitute only a small fraction of the range of stellar systems found to display periodic, shallow dimmings in wide-field surveys employing small-aperture camera arrays. Here we present an efficient selection strategy for follow-up observations, derived from analysis of the light curves of a sample of 67 SuperWASP targets that passed the selection tests we used in earlier papers, but which have subsequently been identified either as planet hosts or as astrophysical false positives. We determine the system parameters using Markov-chain Monte Carlo analysis of the SuperWASP light curves. We use a constrained optimization of χ2 combined with a Bayesian prior based on the main-sequence mass and radius expected from the Two Micron All Sky Survey J - H colour. The Bayesian nature of the analysis allows us to quantify both the departure of the host star from the main-sequence mass-radius relation and the probability that the companion radius is less than 1.5 Jupiter radii. When augmented by direct light-curve analyses that detect binaries with unequal primary and secondary eclipses, and objects with aperture blends that are resolved by SuperWASP, we find that only 13 of the original 67 stars, including the three known planets in the sample, would qualify for follow-up. This suggests that planet discovery 'hit rates' better than one-in-five should be achievable. In addition, the stellar binaries that qualify are likely to have astrophysically interesting stellar or substellar secondaries. © 2007 RAS.