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1 AI PANNEKOEK - Astronomical Institute Anton Pannekoek 2 Institute for Astronomy, University of Amsterdam, The Netherland 3 CSIRO - CSIRO Astronomy & Space Science 4 University of Southampton Southampton, UK 5 Astrophysics, University of Oxford 6 Jodrell Bank Centre for Astrophysics 7 USN - Unité Scientifique de la Station de Nançay 8 Laboratoire AIM 9 Thüringer Landessternwarte Tautenburg 10 LPC2E - Laboratoire de Physique et Chimie de l-Environnement et de l-Espace 11 Radboud university Nijmegen 12 MPIFR - Max-Planck-Institut für Radioastronomie 13 University of California Berkeley 14 Curtin University, Perth, Australia 15 LESIA - Laboratoire d-études spatiales et d-instrumentation en astrophysique

Abstract : We report on the results of a search for radio transients between 115 and 190 MHz with the LOw-Frequency ARray LOFAR. Four fields have been monitored with cadences between 15 min and several months. A total of 151 images were obtained, giving a total survey area of 2275 deg 2. We analysed our data using standard LOFAR tools and searched for radio transients using the LOFAR Transients Pipeline. No credible radio transient candidate has been detected; however, we are able to set upper limits on the surface density of radio transient sources at low radio frequencies. We also show that low-frequency radio surveys are more sensitive to steep-spectrum coherent transient sources than GHz radio surveys. We used two new statistical methods to determine the upper limits on the transient surface density. One is free of assumptions on the flux distribution of the sources, while the other assumes a power-law distribution in flux and sets more stringent constraints on the transient surface density. Both of these methods provide better constraints than the approach used in previous works. The best value for the upper limit we can set for the transient surface density, using the method assuming a power-law flux distribution, is 1.3 × 10 −3 deg −2 for transients brighter than 0.3 Jy with a timescale of 15 min, at a frequency of 150 MHz. We also calculated for the first time upper limits for the transient surface density for transients of different timescales. We find that the results can differ by orders of magnitude from previously reported, simplified estimates.

Keywords : techniques: image processing methods: statistical radio continuum: general. instrumentation: interferometers methods: data analysis





Author: D Carbone - A. J. Van Der Horst - R. A. M. J. Wijers - J. D. Swinbank - A Rowlinson - J. W. Broderick - Y.D. Cendes - A.J. Stewar

Source: https://hal.archives-ouvertes.fr/



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