* Astronomy

Australian desert telescope views sky in radio technicolour

A telescope located deep in the West Australian outback has shown what the Universe would look like if human eyes could see radio waves.
Published today in the Monthly Notices of the Royal Astronomical Society, the GaLactic and Extragalactic All-sky MWA, or 'GLEAM' survey, has produced a catalogue of 300,000 galaxies observed by the Murchison Widefield Array (MWA), a $50 million radio telescope located at a remote site north-east of Geraldton.
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Title: Observing the Sun with the Murchison Widefield Array
Author: D. Oberoi (1), R. Sharma (1), S. Bhatnagar (2), C. J. Lonsdale (3), L. D. Matthews (3), I. H. Cairns (4), S. J. Tingay (5), L. Benkevitch (3), A. Donea (6), S. M. White (7), G. Bernardi (8), J. D. Bowman (9), F. Briggs (10), R. J. Cappallo (3), B. E. Corey (3), A. Deshpande (11), D. Emrich (5), B. M. Gaensler (4 and 12), R. Goeke (13), L. J. Greenhill (14), B. J. Hazelton (15), M. Johnston-Hollitt (16), D. L. Kaplan (17), J. C. Kasper (18), E. Kratzenberg (3), M. J. Lynch (5), S. R. McWhirter (3), D. A. Mitchell (19 and 12), M. F. Morales (15), E. Morgan (13), A. R. Offringa (10), S. M. Ord (5), T. Prabu (11), A. E. E. Rogers (3), A. Roshi (20), J. E. Salah (3), N. Udaya Shankar (11), K. S. Srivani (11), R. Subrahmanyan (11 and 12), M. Waterson (5), R. B. Wayth (5), R. L. Webster (21 and 12), et al. (3 additional authors not shown)

The Sun has remained a difficult source to image for radio telescopes, especially at the low radio frequencies. Its morphologically complex emission features span a large range of angular scales, emission mechanisms involved and brightness temperatures. In addition, time and frequency synthesis, the key tool used by most radio interferometers to build up information about the source being imaged is not effective for solar imaging, because many of the features of interest are short lived and change dramatically over small fractional bandwidths. 
Building on the advances in radio frequency technology, digital signal processing and computing, the kind of instruments needed to simultaneously capture the evolution of solar emission in time, frequency, morphology and polarization over a large spectral span with the requisite imaging fidelity, and time and frequency resolution have only recently begun to appear. Of this class of instruments, the Murchison Widefield Array (MWA) is best suited for solar observations. The MWA has now entered a routine observing phase and here we present some early examples from MWA observations.

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Title: A 189 MHz, 2400 square degree polarization survey with the Murchison Widefield Array 32-element prototype
Authors: G. Bernardi, L.J. Greenhill, D.A. Mitchell, S.M. Ord, B.J. Hazelton, B.M. Gaensler, A. de Oliveira-Costa, M.F. Morales, R. Udaya Shankar, R. Subrahmanyan, R.B. Wayth, E. Lenc, C.L. Williams, W. Arcus, S.A. Balwinder, D.G. Barnes, J.D. Bowman, F.H. Briggs, J.D. Bunton, R.J. Cappallo, B.E. Corey, A. Deshpande, L. deSouza, D. Emrich, R. Goeke, D. Herne, J.N. Hewitt, M. Johnston-Hollitt, D. Kaplan, J.C. Kasper, B.B. Kincaid, R. Koenig, E. Kratzenberg, C.J. Lonsdale, M.J. Lynch, S.R. McWhirter, E. Morgan, D. Oberoi, J. Pathikulangara, T. Prabu, R.A. Remillard, A.E.E. Rogers, A. Roshi, J.E. Salah, R.J. Sault, K.S. Srivani, J. Stevens, S.J. Tingay, M. Waterson, R.L. Webster, A.R. Whitney, A. Williams, J.S.B. Wyithe

We present a Stokes I, Q and U survey at 189 MHz with the Murchison Widefield Array 32-element prototype covering 2400 square degrees. The survey has a 15.6 arcmin angular resolution and achieves a noise level of 15 mJy/beam. We demonstrate a novel interferometric data analysis that involves calibration of drift scan data, integration through the co-addition of warped snapshot images and deconvolution of the point spread function through forward modelling. We present a point source catalogue down to a flux limit of 4 Jy. We detect polarisation from only one of the sources, PMN J0351-2744, at a level of 1.8 ± 0.4%, whereas the remaining sources have a polarisation fraction below 2%. Compared to a reported average value of 7% at 1.4 GHz, the polarisation fraction of compact sources significantly decreases at low frequencies. We find a wealth of diffuse polarised emission across a large area of the survey with a maximum peak of ~13 K, primarily with positive rotation measure values smaller than +10 rad/m². The small values observed indicate that the emission is likely to have a local origin (closer than a few hundred parsecs). There is a large sky area at 2^h30^m where the diffuse polarised emission rms is fainter than 1 K. Within this area of low Galactic polarisation we characterise the foreground properties in a cold sky patch at (\alpha,\delta) = (4^h,-27.6°) in terms of three dimensional power spectra

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Providing a clearer view of our early Universe

The MWA will survey the sky more thoroughly and deeply than ever before in an attempt to detect very faint signals from the Epoch of Reionisation - a little understood early era of the Universe's history, occurring within the first billion years after the Big Bang, when cool atomic hydrogen gas was heated and ionised by the first light-emitting objects in the Universe.
As recently published in The Astrophysical Journal, researcher Dr Cathryn Trott and her team at the International Centre for Radio Astronomy Research have proposed a more accurate method of understanding bright foreground noise that may be obscuring scientists' views of these very faint signals.
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