Astronomical instrumentation

KMOS: A multi-object deployable-IFU spectrometer for the ESO VLT

NEW ASTRON REV 50:4-5 (2006) 370-373

Authors:

R Sharples, R Bender, R Bennett, K Burch, P Carter, P Clark, R Content, R Davies, R Davies, M Dubbeldam, R Genzel, A Hess, K Laidlaw, M Lehnert, I Lewis, B Muschielok, S Ramsey-Howat, P Rees, D Robertson, I Robson, R Saglia, M Tecza, N Thatte, S Todd, B Wall, M Wegner

Abstract:

We describe the design of a 2nd generation instrument for the ESO VLT which uses 24 cryogenic pickoff arms linked to diamond-machined image slicing integral field units to deliver a unique multiple deployable integral field capability in the near-infrared (1-2.5 mu m). The science requirements for the instrument are presented and linked to the functional specification. The baseline instrument concept is described with emphasis on technological innovations. (c) 2006 Elsevier B.V. All rights reserved.

Scientific requirements for a European ELT

Society of Photo-Optical Instrumentation Engineers (SPIE) 6267 (2006) 26-26

Authors:

I Hook, G Dalton, R Gilmozzi

The UK FMOS spectrograph

Society of Photo-Optical Instrumentation Engineers (SPIE) 6269 (2006) 4-4

Authors:

GB Dalton, IJ Lewis, DG Bonfield, AR Holmes, CB Brooks, H Lee, IAJ Tosh, TR Froud, M Patel, NA Dipper, C Blackburn

The VISTA infrared camera

Society of Photo-Optical Instrumentation Engineers (SPIE) 6269 (2006) 0-0

Authors:

GB Dalton, M Caldwell, AK Ward, MS Whalley, G Woodhouse, RL Edeson, P Clark, SM Beard, AM Gallie, SP Todd, JMD Strachan, NN Bezawada, WJ Sutherland, JP Emerson

Non-Gaussianity in the Very Small Array CMB maps with Smooth-Goodness-of-fit tests

Mon.Not.Roy.Astron.Soc. 369 (2006) 909-920

Authors:

JA Rubino-Martin, AM Aliaga, RB Barreiro, RA Battye, P Carreira, K Cleary, RD Davies, RJ Davis, C Dickinson, R Genova-Santos, K Grainge, CM Gutierrez, YA Hafez, MP Hobson, ME Jones, R Kneissl, K Lancaster, A Lasenby, JP Leahy, K Maisinger, E Martinez-Gonzalez, GG Pooley, N Rajguru, R Rebolo, JL Sanz, RDE Saunders, RS Savage, A Scaife, P Scott, A Slosar, AC Taylor, D Titterington, E Waldram, RA Watson

Abstract:

(Abridged) We have used the Rayner & Best (1989) smooth tests of goodness-of-fit to study the Gaussianity of the Very Small Array (VSA) data. Out of the 41 published VSA individual pointings dedicated to cosmological observations, 37 are found to be consistent with Gaussianity, whereas four pointings show deviations from Gaussianity. In two of them, these deviations can be explained as residual systematic effects of a few visibility points which, when corrected, have a negligible impact on the angular power spectrum. The non-Gaussianity found in the other two (adjacent) pointings seems to be associated to a local deviation of the power spectrum of these fields with respect to the common power spectrum of the complete data set, at angular scales of the third acoustic peak (l = 700-900). No evidence of residual systematics is found in this case, and unsubstracted point sources are not a plausible explanation either. If those visibilities are removed, a cosmological analysis based on this new VSA power spectrum alone shows no differences in the parameter constraints with respect to our published results, except for the physical baryon density, which decreases by 10 percent. Finally, the method has been also used to analyse the VSA observations in the Corona Borealis supercluster region (Genova-Santos et al. 2005), which show a strong decrement which cannot be explained as primordial CMB. Our method finds a clear deviation (99.82%) with respect to Gaussianity in the second-order moment of the distribution, and which can not be explained as systematic effects. A detailed study shows that the non-Gaussianity is produced in scales of l~500, and that this deviation is intrinsic to the data (in the sense that can not be explained in terms of a Gaussian field with a different power spectrum).