Cosmology

The Arcminute Microkelvin Imager*

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 391:4 (2008) 1545-1558

Authors:

JTL Zwart, RW Barker, P Biddulph, D Bly, RC Boysen, AR Brown, C Clementson, M Crofts, TL Culverhouse, J Czeres, RJ Dace, ML Davies, R D'Alessandro, P Doherty, K Duggan, JA Ely, M Felvus, F Feroz, W Flynn, TMO Franzen, J Geisbüsch, R Génova-Santos, KJB Grainge, WF Grainger, D Hammett, RE Hills, MP Hobson, CM Holler, N Hurley-Walker, R Jilley, ME Jones, T Kaneko, R Kneissl, K Lancaster, AN Lasenby, PJ Marshall, F Newton, O Norris, I Northrop, DM Odell, G Petencin, JC Pober, GG Pooley, MW Pospieszalski, V Quy, C Rodríguez-Gonzálvez, RDE Saunders, AMM Scaife, J Schofield, PF Scott, C Shaw, TW Shimwell, H Smith, AC Taylor, DJ Titterington, M Velić, EM Waldram, S West, BA Wood, G Yassin

The impact of TP-AGB stars on hierarchical galaxy formation models

ArXiv 0812.1225 (2008)

Authors:

Chiara Tonini, Claudia Maraston, Julien Devriendt, Daniel Thomas, Joseph Silk

Abstract:

The spectro-photometric properties of galaxies in galaxy formation models are obtained by combining the predicted history of star formation and mass accretion with the physics of stellar evolution through stellar population models. In the recent literature, significant differences have emerged regarding the implementation of the Thermally-Pulsing Asymptotic Giant Branch phase of stellar evolution. The emission in the TP-AGB phase dominates the bolometric and near-IR spectrum of intermediate-age (~1 Gyr) stellar populations, hence it is crucial for the correct modeling of the galaxy luminosities and colours. In this paper for the first time, we incorporate a full prescription of the TP-AGB phase in a semi-analytic model of galaxy formation. We find that the inclusion of the TP-AGB in the model spectra dramatically alters the predicted colour-magnitude relation and its evolution with redshift. When the TP-AGB phase is active, the rest-frame V-K galaxy colours are redder by almost 2 magnitudes in the redshift range z~2-3 and by 1 magnitude at z~1. Very red colours are produced in disk galaxies, so that the V-K colour distributions of disk and spheroids are virtually undistinguishable at low redshifts. We also find that the galaxy K-band emission is more than 1 magnitude higher in the range z~1-3. This may alleviate the difficulties met by the hierarchical clustering scenario in predicting the red galaxy population at high redshifts. The comparison between simulations and observations have to be revisited in the light of our results.

The impact of TP-AGB stars on hierarchical galaxy formation models

(2008)

Authors:

Chiara Tonini, Claudia Maraston, Julien Devriendt, Daniel Thomas, Joseph Silk

A novel heterodyne interferometer for millimetre and sub-millimetre astronomy

Proceedings of the 19th International Symposium on Space Terahertz Technology, ISSTT 2008 (2008) 274-280

Authors:

PK Grimes, M Brock, CM Holler, K Jacobs, ME Jones, OG King, J Leech, AC Taylor, G Yassin

Abstract:

We describe a novel heterodyne interferometer currently under construction at Oxford. The instrument employs new techniques in heterodyne interferometry, with the aim of achieving very high brightness sensitivity in the millimetre band. It is a single-baseline tracking interferometer for operation in the frequency range 185-275 GHz with two 0.4m offset parabolic antennas separated by a 0.5 m baseline. Each antenna feeds an SIS mixer with a 2-20 GHz IF band, driven by a phase-switched LO source. The IF signals from the mixers are processed by a 2-20 GHz analogue complex correlator. The primary science goal of this instrument is to measure the spectrum of the Sunyaev-Zel'dovich effect in galaxy clusters. In particular we intend to measure the frequency of the S-Z null near 217 GHz, which allows the gas temperature of the cluster to be determined. Measuring the spectrum of the S-Z effect requires very high brightness sensitivity with moderate spatial and spectral resolution.

Discovery of hot gas in outflow in NGC 3379

Astrophysical Journal 688:2 (2008) 1000-1008

Authors:

G Trinchieri, S Pellegrini, G Fabbiano, R Fu, NJ Brassington, A Zezas, DW Kim, J Gallagher, L Angelini, RL Davies, V Kalogera, AR King, S Zepf

Abstract:

We report the discovery of a faint (Lx ∼ 4 ± 1.5 × 1037 ergs s-1, 0.5-2 keV), outflowing gaseous hot interstellar medium (ISM) in NGC 3379. This represents the lowest X-ray luminosity ever measured from a hot phase of the ISM in a nearby early-type galaxy. The discovery of the hot ISM in a very deep Chandra observation was possible thanks to its unique spectral and spatial signatures, which distinguish it from the integrated stellar X-ray emission, responsible for most of the unresolved emission in the Chandra data. This hot component is found in a region of ∼800 pc in radius at the center of the galaxy and has a total mass M ∼ 3 ± 1 × 105 M⊙. Independent theoretical prediction of the characteristics of an ISM in this galaxy, based on the intrinsic properties of NGC 3379, reproduce well the observed luminosity, temperature, and radial distribution and mass of the hot gas, and indicate that the gas is in an outflowing phase, predicted by models but not observed in any system so far.