Reliable detection and characterization of low-frequency polarized   sources in the LOFAR M51 field

A. Neld (1); C. Horellou (1); D.D. Mulcahy (2; 3); R. Beck (3); S.; Bourke (1); T.D. Carozzi (1); K.T. Chy\.zy (4); J.E. Conway (1); J.S. Farnes; (5); A. Fletcher (6); M. Haverkorn (5); G. Heald (7; 9); A. Horneffer (3),; B. Nikiel-Wroczy\'nski (4); R. Paladino (8); S.S. Sridhar (9); C.L. Van Eck; (5) ((1) Dept of Space; Earth; Environment; Chalmers University of; Technology; Onsala Space Observatory; Sweden; (2) Jodrell Bank Centre for; Astrophysics; Alan Turing Building; School of Physics; Astronomy; The; University of Manchester; Oxford Road; Manchester; U.K.; (3); Max-Planck-Institut f\"ur Radioastronomie; Bonn; Germany; (4) Astronomical; Observatory; Jagiellonian University; Krak\'ow; Poland; (5) Department of; Astrophysics/IMAPP; Radboud University; Nijmegen; The Netherlands; (6) School; of Mathematics; Statistics; Newcastle University; U.K.; (7) CSIRO; Astronomy; Space Science; Australia; (8) INAF-Osservatorio di; Radioastronomia; Bologna; Italy; (9) Kapteyn Astronomical Institute,; University of Groningen; The Netherlands)

arXiv:1807.09240·astro-ph.GA·October 3, 2018

Reliable detection and characterization of low-frequency polarized sources in the LOFAR M51 field

A. Neld (1), C. Horellou (1), D.D. Mulcahy (2, 3), R. Beck (3), S., Bourke (1), T.D. Carozzi (1), K.T. Chy\.zy (4), J.E. Conway (1), J.S. Farnes, (5), A. Fletcher (6), M. Haverkorn (5), G. Heald (7, 9), A. Horneffer (3),, B. Nikiel-Wroczy\'nski (4), R. Paladino (8)

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TL;DR

This paper develops a new, efficient algorithm for detecting and characterizing low-frequency polarized radio sources using LOFAR data, enabling reliable polarization catalogs and RM grid creation for studying magneto-ionized structures.

Contribution

It introduces a rigorous, statistically robust source-finding method for polarized sources in broad-band radio surveys, demonstrated on LOFAR M51 data.

Findings

01

Detected 6 polarized sources with high confidence out of 201 candidates.

02

Established a source density of approximately 0.3 polarized sources per square degree.

03

Developed a method to quantify detection reliability using false discovery rate analysis.

Abstract

The new generation of broad-band radio continuum surveys will provide large data sets with polarization information. New algorithms need to be developed to extract reliable catalogs of linearly polarized sources that can be used to characterize those sources and produce a dense rotation measure (RM) grid to probe magneto-ionized structures along the line of sight via Faraday rotation. The aim of the paper is to develop a computationally efficient and rigorously defined source-finding algorithm for linearly polarized sources. We used a calibrated data set from the LOw Frequency ARray (LOFAR) at 150 MHz centered on the nearby galaxy M51 to search for polarized background sources. With a new imaging software, we re-imaged the field at a resolution of 18''x15'' and cataloged a total of about 3000 continuum sources within 2.5 degrees of the center of M51. We made small Stokes Q and U images…

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