University of Hertfordshire

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From the same journal

By the same authors


  • Neal Jackson
  • Shruti Badole
  • Rajan Chhetri
  • Kaspars Prusis
  • Atvars Nikolajevs
  • Leah Morabito
  • Michiel Brentjens
  • Frits Sweijen
  • Marco Iacobelli
  • Emanuela Orrù
  • J. Sluman
  • R. Blaauw
  • H. Mulder
  • P. van Dijk
  • Sean Mooney
  • Adam Deller
  • Javier Moldon
  • J. R. Callingham
  • George Heald
  • Alexander Drabent
  • J. P. McKean
  • A. Asgekar
  • I. M. Avruch
  • M. J. Bentum
  • A. Bonafede
  • W. N. Brouw
  • M. Brüggen
  • H. R. Butcher
  • B. Ciardi
  • A. Coolen
  • A. Corstanje
  • S. Damstra
  • S. Duscha
  • J. Eislöffel
  • H. Falcke
  • M. Garrett
  • F. de Gasperin
  • J. -M. Griessmeier
  • A. W. Gunst
  • M. P. van Haarlem
  • M. Hoeft
  • A. J. van der Horst
  • E. Jütte
  • L. V. E. Koopmans
  • A. Krankowski
  • P. Maat
  • G. Mann
  • G. K. Miley
  • A. Nelles
  • M. Norden
  • M. Paas
  • V. N. Pandey
  • M. Pandey-Pommier
  • R. F. Pizzo
  • W. Reich
  • H. Rothkaehl
  • A. Rowlinson
  • M. Ruiter
  • A. Shulevski
  • D. J. Schwarz
  • O. Smirnov
  • M. Tagger
  • C. Vocks
  • R. J. van Weeren
  • R. Wijers
  • O. Wucknitz
  • P. Zarka
  • J. A. Zensus
  • P. Zucca
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Original languageEnglish
Number of pages14
JournalAstronomy & Astrophysics
Publication statusAccepted/In press - 29 Apr 2021


The Low-Frequency Array (LOFAR) Long-Baseline Calibrator Survey (LBCS) was conducted between 2014 and 2019 in order to obtain a set of suitable calibrators for the LOFAR array. In this paper we present the complete survey, building on the preliminary analysis published in 2016 which covered approximately half the survey area. The final catalogue consists of 30006 observations of 24713 sources in the northern sky, selected for a combination of high low-frequency radio flux density and flat spectral index using existing surveys (WENSS, NVSS, VLSS, and MSSS). Approximately one calibrator per square degree, suitable for calibration of $\geq$ 200 km baselines is identified by the detection of compact flux density, for declinations north of 30 degrees and away from the Galactic plane, with a considerably lower density south of this point due to relative difficulty in selecting flat-spectrum candidate sources in this area of the sky. Use of the VLBA calibrator list, together with statistical arguments by comparison with flux densities from lower-resolution catalogues, allow us to establish a rough flux density scale for the LBCS observations, so that LBCS statistics can be used to estimate compact flux densities on scales between 300 mas and 2 arcsec, for sources observed in the survey. The LBCS can be used to assess the structures of point sources in lower-resolution surveys, with significant reductions in the degree of coherence in these sources on scales between 2 arcsec and 300 mas. The LBCS survey sources show a greater incidence of compact flux density in quasars than in radio galaxies, consistent with unified schemes of radio sources. Comparison with samples of sources from interplanetary scintillation (IPS) studies with the Murchison Widefield Array (MWA) shows consistent patterns of detection of compact structure in sources observed both interferometrically with LOFAR and using IPS.


© ESO 2021.

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