Interplanetary Scintillation studies with the Murchison Wide-field Array II: Properties of sub-arcsecond compact sources at low radio frequencies
Date Issued
2018
Author(s)
Chhetri, R.
•
Morgan, J.
•
Ekers, R. D.
•
Macquart, J-P
•
Sadler, E. M.
•
•
Callingham, J. R.
•
Tingay, S. J.
Abstract
We report the first astrophysical application of the technique of wide-field
Interplanetary Scintillation (IPS) with the Murchison Widefield Array (MWA).
This powerful technique allows us to identify and measure sub-arcsecond compact
components in low-frequency radio sources across large areas of sky without the
need for long-baseline interferometry or ionospheric calibration. We present
the results of a five-minute observation of a 30x30 sq. deg MWA field at 162
MHz with 0.5 second time resolution. Of the 2550 continuum sources detected in
this field, 302 (12 per cent) show rapid fluctuations caused by IPS. We find
that at least 32% of bright low-frequency radio sources contain a sub-arcsec
compact component that contributes over 40% of the total flux density. Perhaps
surprisingly, peaked-spectrum radio sources are the dominant population among
the strongly-scintillating, low-frequency sources in our sample. While
gamma-ray AGN are generally compact, flat-spectrum radio sources at higher
frequencies, the 162 MHz properties of many of the Fermi blazars in our field
are consistent with a compact component embedded within more extended
low-frequency emission. The detection of a known pulsar in our field shows that
the wide-field IPS technique is at the threshold of sensitivity needed to
detect new pulsars using image plane analysis, and scaling the current MWA
sensitivity to that expected for SKA-low implies that large IPS-based pulsar
searches will be feasible with SKA. Calibration strategies for the SKA require
a better knowledge of the space density of compact sources at low radio
frequencies, which IPS observations can now provide.
Volume
474
Issue
4
Start page
4937
Issn Identifier
0035-8711
Ads BibCode
2018MNRAS.474.4937C
Rights
open.access
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