A Matched Filter Technique for Slow Radio Transient Detection and First Demonstration with the Murchison Widefield Array

A Matched Filter Technique for Slow Radio Transient Detection and First Demonstration with the Murchison Widefield Array

Many astronomical sources produce transient phenomena at radio frequencies, but the transient sky at low frequencies ( < 300 MHz) remains relatively unexplored. Blind surveys with new wide-field radio instruments are setting increasingly stringent limits on the transient surface density on va...

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Main Authors: Feng, L., Vaulin, R., Hewitt, J., Remillard, R., Kaplan, D., Murphy, T., Kudryavtseva, N., Hancock, Paul, Bernardi, G., Bowman, J., Briggs, F., Cappallo, R., Deshpande, A., Gaensler, B., Greenhill, L., Hazelton, B., Johnston-Hollitt, M., Lonsdale, C., McWhirter, S., Mitchell, D., Morales, M., Morgan, E., Oberoi, D., Ord, S., Prabu, T., Shankar, N., Srivani, K., Subrahmanyan, R., Tingay, Steven, Wayth, Randall, Webster, R., Williams, Andrew, Williams, C.
Format: Journal Article
Published: Institute of Physics Publishing 2017
Online Access:http://hdl.handle.net/20.500.11937/62347
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author Feng, L.
Vaulin, R.
Hewitt, J.
Remillard, R.
Kaplan, D.
Murphy, T.
Kudryavtseva, N.
Hancock, Paul
Bernardi, G.
Bowman, J.
Briggs, F.
Cappallo, R.
Deshpande, A.
Gaensler, B.
Greenhill, L.
Hazelton, B.
Johnston-Hollitt, M.
Lonsdale, C.
McWhirter, S.
Mitchell, D.
Morales, M.
Morgan, E.
Oberoi, D.
Ord, S.
Prabu, T.
Shankar, N.
Srivani, K.
Subrahmanyan, R.
Tingay, Steven
Wayth, Randall
Webster, R.
Williams, Andrew
Williams, C.
author_facet Feng, L.
Vaulin, R.
Hewitt, J.
Remillard, R.
Kaplan, D.
Murphy, T.
Kudryavtseva, N.
Hancock, Paul
Bernardi, G.
Bowman, J.
Briggs, F.
Cappallo, R.
Deshpande, A.
Gaensler, B.
Greenhill, L.
Hazelton, B.
Johnston-Hollitt, M.
Lonsdale, C.
McWhirter, S.
Mitchell, D.
Morales, M.
Morgan, E.
Oberoi, D.
Ord, S.
Prabu, T.
Shankar, N.
Srivani, K.
Subrahmanyan, R.
Tingay, Steven
Wayth, Randall
Webster, R.
Williams, Andrew
Williams, C.
author_sort Feng, L.
building Curtin Institutional Repository
collection Online Access
description Many astronomical sources produce transient phenomena at radio frequencies, but the transient sky at low frequencies ( < 300 MHz) remains relatively unexplored. Blind surveys with new wide-field radio instruments are setting increasingly stringent limits on the transient surface density on various timescales. Although many of these instruments are limited by classical confusion noise from an ensemble of faint, unresolved sources, one can in principle detect transients below the classical confusion limit to the extent that the classical confusion noise is independent of time. We develop a technique for detecting radio transients that is based on temporal matched filters applied directly to time series of images, rather than relying on source-finding algorithms applied to individual images. This technique has well-defined statistical properties and is applicable to variable and transient searches for both confusion-limited and non-confusion-limited instruments. Using the Murchison Widefield Array as an example, we demonstrate that the technique works well on real data despite the presence of classical confusion noise, sidelobe confusion noise, and other systematic errors. We searched for transients lasting between 2 minutes and 3 months. We found no transients and set improved upper limits on the transient surface density at 182 MHz for flux densities between ~20 and 200 mJy, providing the best limits to date for hour- and month-long transients.
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format Journal Article
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institution Curtin University Malaysia
institution_category Local University
last_indexed 2025-11-14T10:22:04Z
publishDate 2017
publisher Institute of Physics Publishing
recordtype eprints
repository_type Digital Repository
spelling curtin-20.500.11937-623472018-03-05T08:56:49Z A Matched Filter Technique for Slow Radio Transient Detection and First Demonstration with the Murchison Widefield Array Feng, L. Vaulin, R. Hewitt, J. Remillard, R. Kaplan, D. Murphy, T. Kudryavtseva, N. Hancock, Paul Bernardi, G. Bowman, J. Briggs, F. Cappallo, R. Deshpande, A. Gaensler, B. Greenhill, L. Hazelton, B. Johnston-Hollitt, M. Lonsdale, C. McWhirter, S. Mitchell, D. Morales, M. Morgan, E. Oberoi, D. Ord, S. Prabu, T. Shankar, N. Srivani, K. Subrahmanyan, R. Tingay, Steven Wayth, Randall Webster, R. Williams, Andrew Williams, C. Many astronomical sources produce transient phenomena at radio frequencies, but the transient sky at low frequencies ( < 300 MHz) remains relatively unexplored. Blind surveys with new wide-field radio instruments are setting increasingly stringent limits on the transient surface density on various timescales. Although many of these instruments are limited by classical confusion noise from an ensemble of faint, unresolved sources, one can in principle detect transients below the classical confusion limit to the extent that the classical confusion noise is independent of time. We develop a technique for detecting radio transients that is based on temporal matched filters applied directly to time series of images, rather than relying on source-finding algorithms applied to individual images. This technique has well-defined statistical properties and is applicable to variable and transient searches for both confusion-limited and non-confusion-limited instruments. Using the Murchison Widefield Array as an example, we demonstrate that the technique works well on real data despite the presence of classical confusion noise, sidelobe confusion noise, and other systematic errors. We searched for transients lasting between 2 minutes and 3 months. We found no transients and set improved upper limits on the transient surface density at 182 MHz for flux densities between ~20 and 200 mJy, providing the best limits to date for hour- and month-long transients. 2017 Journal Article http://hdl.handle.net/20.500.11937/62347 10.3847/1538-3881/153/3/98 Institute of Physics Publishing fulltext
spellingShingle Feng, L.
Vaulin, R.
Hewitt, J.
Remillard, R.
Kaplan, D.
Murphy, T.
Kudryavtseva, N.
Hancock, Paul
Bernardi, G.
Bowman, J.
Briggs, F.
Cappallo, R.
Deshpande, A.
Gaensler, B.
Greenhill, L.
Hazelton, B.
Johnston-Hollitt, M.
Lonsdale, C.
McWhirter, S.
Mitchell, D.
Morales, M.
Morgan, E.
Oberoi, D.
Ord, S.
Prabu, T.
Shankar, N.
Srivani, K.
Subrahmanyan, R.
Tingay, Steven
Wayth, Randall
Webster, R.
Williams, Andrew
Williams, C.
A Matched Filter Technique for Slow Radio Transient Detection and First Demonstration with the Murchison Widefield Array
title A Matched Filter Technique for Slow Radio Transient Detection and First Demonstration with the Murchison Widefield Array
title_full A Matched Filter Technique for Slow Radio Transient Detection and First Demonstration with the Murchison Widefield Array
title_fullStr A Matched Filter Technique for Slow Radio Transient Detection and First Demonstration with the Murchison Widefield Array
title_full_unstemmed A Matched Filter Technique for Slow Radio Transient Detection and First Demonstration with the Murchison Widefield Array
title_short A Matched Filter Technique for Slow Radio Transient Detection and First Demonstration with the Murchison Widefield Array
title_sort matched filter technique for slow radio transient detection and first demonstration with the murchison widefield array
url http://hdl.handle.net/20.500.11937/62347

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