The Square Kilometre Array (SKA)

Characteristics of EGRET blazars in the VLBA Imaging and Polarimetry Survey (VIPS)

Astrophysical Journal 671:2 (2007) 1355-1364

Authors:

GB Taylor, SE Healey, JF Helmboldt, S Tremblay, CD Fassnacht, RC Walker, LO Sjouwerman, TJ Pearson, ACS Readhead, L Weintraub, N Gehrels, RW Romani, PF Michelson, RD Blandford, G Cotter

Abstract:

We examine the radio properties of EGRET-detected blazars observed as part of the VLBA Imaging and Polarimetry Survey (VIPS). VIPS has a flux limit roughly an order of magnitude below the MOJAVE survey and most other samples that have been used to study the properties of EGRET blazars. At lower flux levels, radio flux density does not directly correlate with gamma-ray flux density. We do find that the EGRET-detected blazars tend to have higher brightness temperatures, greater core fractions, and possibly larger than average jet opening angles. A weak correlation is also found with jet length and with polarization. All of the well-established trends can be explained by systematically larger Doppler factors in the gamma-ray-loud blazars, consistent with the measurements of higher apparent velocities found in monitoring programs carried out at radio frequencies above 10 GHz. © 2007. The American Astronomical Society. All rights reserved.

Monitoring LMXBs with the Faulkes Telescopes

(2007)

Authors:

Fraser Lewis, David M Russell, Rob P Fender, Paul Roche

Linking Jet Emission, X-Ray States, and Hard X-Ray Tails in the Neutron Star X-Ray Binary GX 17+2

The Astrophysical Journal American Astronomical Society 671:1 (2007) 706-712

Authors:

S Migliari, JCA Miller-Jones, RP Fender, J Homan, T Di Salvo, RE Rothschild, MP Rupen, JA Tomsick, R Wijnands, M van der Klis

A high performance horn for large format focal plane arrays

Proceedings of the Eighteenth International Symposium on Space Terahertz Technology 2007, ISSTT 2007 (2007) 199-210

Authors:

G Yassin, P Kittara, A Jiralucksanawong, S Wangsuya, J Leech, M Jones

Abstract:

We describe the design and performance of an easy to machine horn which exhibits excellent beam circularity and low cross polarisation over a relatively large bandwidth. No grooves are machined into the horn walls but, alternatively, flare angle discontinuities are generated along the horn profile. In other words, the horns will have several flare angles or sections instead of one. For example, if the horn consists of two flare angles, it could then be considered as a conventional Potter horn. As can be seen below, even with this simple design, excellent radiation patterns can be obtained over 15% bandwidth. The bandwidth could be further increased by adding more subsections with 30% bandwidth obtained when the profile is based on 4 sections. The operation of the horn is based on generating higher order modes at the correct amplitude ratio and phase with respect to the incident TE11 mode in the circular waveguide, which is achieved by accurate determination of the magnitude and location of the flare steps. This in turn yields a field distribution at the horn aperture that has low sidelobes and cross polarization in the radiation pattern. A key component in the design package is the optimization software that searches for the correct magnitude and location of the flare discontinuities. We have generated a software package based on the combination of modal matching, genetic algorithm (GA) and simplex optimization. The genetic code is first used to locate the proximity of the global minimum. The set of parameters obtained are then used as a starting point for the simplex method, which refines the parameters to the required accuracy. We shall illustrate our method by showing radiation patterns using two and three step discontinuities and also patterns for a spline profiled horn based on work by other investigators who used different optimization techniques.

Clover-measuring the CMB B-mode polarisation

Proceedings of the Eighteenth International Symposium on Space Terahertz Technology 2007, ISSTT 2007 (2007) 238-243

Authors:

CE North, PAR Ade, MD Audley, C Baines, RA Battye, ML Brown, P Cabella, PG Calisse, AD Challinor, WD Duncan, P Ferreira, WK Gear, D Glowacka, DJ Goldie, PK Grimes, M Halpern, V Haynes, GC Hilton, KD Irwin, BR Johnson, ME Jones, AN Lasenby, PJ Leahy, J Leech, S Lewis, B Maffei, L Martinis, P Mauskopf, SJ Melhuish, D O'Dea, SM Parsley, L Piccirillo, G Pisano, CD Reintsema, G Savini, R Sudiwala, D Sutton, AC Taylor, G Teleberg, D Titterington, V Tsaneva, C Tucker, R Watson, S Withington, G Yassin, J Zhang

Abstract:

We describe the objectives, design and predicted performance of Clover, a fully-funded, UK-led experiment to measure the B-mode polarisation of the Cosmic Microwave Background (CMB). Three individual telescopes will operate at 97, 150 and 225 GHz, each populated by up to 256 horns. The detectors, TES bolometers, are limited by unavoidable photon noise, and coupled to an optical design which gives very low systematic errors, particularly in cross-polarisation. The telescopes will sit on three-axis mounts on a site in the Atacama Desert. The angular resolution of around 8 ́ and sky coverage of around 1000 deg2 provide multipole coverage of 20<ℓ<1000. Combined with the high sensitivity, this should allow the B-mode signal to be measured (or constrained) down to a level corresponding to a tensor-to-scalar ratio of r = 0.01, providing the emission from polarised foregrounds can be subtracted. This in turn will allow constraints to be placed on the energy scale of inflation, providing an unprecedented insight into the early history of the Universe.