Ionospheric Modelling using GPS to Calibrate the MWA. I: Comparison of First Order Ionospheric Effects between GPS Models and MWA Observations

Ionospheric Modelling using GPS to Calibrate the MWA. I: Comparison of First Order Ionospheric Effects between GPS Models and MWA Observations

We compare first-order (refractive) ionospheric effects seen by the MWA with the ionosphere as inferred from GPS data. The first-order ionosphere manifests itself as a bulk position shift of the observed sources across an MWA field of view. These effects can be computed from global ionosphere maps p...

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Veröffentlicht in:Publications of the Astronomical Society of Australia 2015-08, Vol.32, Article e029
Hauptverfasser: Arora, B. S., Morgan, J., Ord, S. M., Tingay, S. J., Hurley-Walker, N., Bell, M., Bernardi, G., Bhat, N. D. R., Briggs, F., Callingham, J. R., Deshpande, A. A., Dwarakanath, K. S., Ewall-Wice, A., Feng, L., For, B.-Q., Hancock, P., Hazelton, B. J., Hindson, L., Jacobs, D., Johnston-Hollitt, M., Kapińska, A. D., Kudryavtseva, N., Lenc, E., McKinley, B., Mitchell, D., Oberoi, D., Offringa, A. R., Pindor, B., Procopio, P., Riding, J., Staveley-Smith, L., Wayth, R. B., Wu, C., Zheng, Q., Bowman, J. D., Cappallo, R. J., Corey, B. E., Emrich, D., Goeke, R., Greenhill, L. J., Kaplan, D. L., Kasper, J. C., Kratzenberg, E., Lonsdale, C. J., Lynch, M. J., McWhirter, S. R., Morales, M. F., Morgan, E., Prabu, T., Rogers, A. E. E., Roshi, A., Shankar, N. Udaya, Srivani, K. S., Subrahmanyan, R., Waterson, M., Webster, R. L., Whitney, A. R., Williams, A., Williams, and C. L.
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Murchison Widefield Array
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creator Arora, B. S.
Morgan, J.
Ord, S. M.
Tingay, S. J.
Hurley-Walker, N.
Bell, M.
Bernardi, G.
Bhat, N. D. R.
Briggs, F.
Callingham, J. R.
Deshpande, A. A.
Dwarakanath, K. S.
Ewall-Wice, A.
Feng, L.
For, B.-Q.
Hancock, P.
Hazelton, B. J.
Hindson, L.
Jacobs, D.
Johnston-Hollitt, M.
Kapińska, A. D.
Kudryavtseva, N.
Lenc, E.
McKinley, B.
Mitchell, D.
Oberoi, D.
Offringa, A. R.
Pindor, B.
Procopio, P.
Riding, J.
Staveley-Smith, L.
Wayth, R. B.
Wu, C.
Zheng, Q.
Bowman, J. D.
Cappallo, R. J.
Corey, B. E.
Emrich, D.
Goeke, R.
Greenhill, L. J.
Kaplan, D. L.
Kasper, J. C.
Kratzenberg, E.
Lonsdale, C. J.
Lynch, M. J.
McWhirter, S. R.
Morales, M. F.
Morgan, E.
Prabu, T.
Rogers, A. E. E.
Roshi, A.
Shankar, N. Udaya
Srivani, K. S.
Subrahmanyan, R.
Waterson, M.
Webster, R. L.
Whitney, A. R.
Williams, A.
Williams, and C. L.
description We compare first-order (refractive) ionospheric effects seen by the MWA with the ionosphere as inferred from GPS data. The first-order ionosphere manifests itself as a bulk position shift of the observed sources across an MWA field of view. These effects can be computed from global ionosphere maps provided by GPS analysis centres, namely the CODE. However, for precision radio astronomy applications, data from local GPS networks needs to be incorporated into ionospheric modelling. For GPS observations, the ionospheric parameters are biased by GPS receiver instrument delays, among other effects, also known as receiver DCBs. The receiver DCBs need to be estimated for any non-CODE GPS station used for ionosphere modelling. In this work, single GPS station-based ionospheric modelling is performed at a time resolution of 10 min. Also the receiver DCBs are estimated for selected Geoscience Australia GPS receivers, located at Murchison Radio Observatory, Yarragadee, Mount Magnet and Wiluna. The ionospheric gradients estimated from GPS are compared with that inferred from MWA. The ionospheric gradients at all the GPS stations show a correlation with the gradients observed with the MWA. The ionosphere estimates obtained using GPS measurements show promise in terms of providing calibration information for the MWA.
doi_str_mv 10.1017/pasa.2015.29
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S.</creatorcontrib><creatorcontrib>Subrahmanyan, R.</creatorcontrib><creatorcontrib>Waterson, M.</creatorcontrib><creatorcontrib>Webster, R. L.</creatorcontrib><creatorcontrib>Whitney, A. R.</creatorcontrib><creatorcontrib>Williams, A.</creatorcontrib><creatorcontrib>Williams, and C. L.</creatorcontrib><collection>CrossRef</collection><jtitle>Publications of the Astronomical Society of Australia</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Arora, B. S.</au><au>Morgan, J.</au><au>Ord, S. M.</au><au>Tingay, S. J.</au><au>Hurley-Walker, N.</au><au>Bell, M.</au><au>Bernardi, G.</au><au>Bhat, N. D. R.</au><au>Briggs, F.</au><au>Callingham, J. R.</au><au>Deshpande, A. A.</au><au>Dwarakanath, K. S.</au><au>Ewall-Wice, A.</au><au>Feng, L.</au><au>For, B.-Q.</au><au>Hancock, P.</au><au>Hazelton, B. J.</au><au>Hindson, L.</au><au>Jacobs, D.</au><au>Johnston-Hollitt, M.</au><au>Kapińska, A. D.</au><au>Kudryavtseva, N.</au><au>Lenc, E.</au><au>McKinley, B.</au><au>Mitchell, D.</au><au>Oberoi, D.</au><au>Offringa, A. R.</au><au>Pindor, B.</au><au>Procopio, P.</au><au>Riding, J.</au><au>Staveley-Smith, L.</au><au>Wayth, R. B.</au><au>Wu, C.</au><au>Zheng, Q.</au><au>Bowman, J. D.</au><au>Cappallo, R. J.</au><au>Corey, B. E.</au><au>Emrich, D.</au><au>Goeke, R.</au><au>Greenhill, L. J.</au><au>Kaplan, D. L.</au><au>Kasper, J. C.</au><au>Kratzenberg, E.</au><au>Lonsdale, C. J.</au><au>Lynch, M. J.</au><au>McWhirter, S. R.</au><au>Morales, M. F.</au><au>Morgan, E.</au><au>Prabu, T.</au><au>Rogers, A. E. E.</au><au>Roshi, A.</au><au>Shankar, N. Udaya</au><au>Srivani, K. S.</au><au>Subrahmanyan, R.</au><au>Waterson, M.</au><au>Webster, R. L.</au><au>Whitney, A. R.</au><au>Williams, A.</au><au>Williams, and C. L.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Ionospheric Modelling using GPS to Calibrate the MWA. I: Comparison of First Order Ionospheric Effects between GPS Models and MWA Observations</atitle><jtitle>Publications of the Astronomical Society of Australia</jtitle><addtitle>Publ. Astron. Soc. Aust</addtitle><date>2015-08-10</date><risdate>2015</risdate><volume>32</volume><artnum>e029</artnum><issn>1323-3580</issn><eissn>1448-6083</eissn><abstract>We compare first-order (refractive) ionospheric effects seen by the MWA with the ionosphere as inferred from GPS data. The first-order ionosphere manifests itself as a bulk position shift of the observed sources across an MWA field of view. These effects can be computed from global ionosphere maps provided by GPS analysis centres, namely the CODE. However, for precision radio astronomy applications, data from local GPS networks needs to be incorporated into ionospheric modelling. For GPS observations, the ionospheric parameters are biased by GPS receiver instrument delays, among other effects, also known as receiver DCBs. The receiver DCBs need to be estimated for any non-CODE GPS station used for ionosphere modelling. In this work, single GPS station-based ionospheric modelling is performed at a time resolution of 10 min. Also the receiver DCBs are estimated for selected Geoscience Australia GPS receivers, located at Murchison Radio Observatory, Yarragadee, Mount Magnet and Wiluna. The ionospheric gradients estimated from GPS are compared with that inferred from MWA. The ionospheric gradients at all the GPS stations show a correlation with the gradients observed with the MWA. The ionosphere estimates obtained using GPS measurements show promise in terms of providing calibration information for the MWA.</abstract><cop>New York, USA</cop><pub>Cambridge University Press</pub><doi>10.1017/pasa.2015.29</doi><tpages>21</tpages><oa>free_for_read</oa></addata></record>
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subjects Murchison Widefield Array
title Ionospheric Modelling using GPS to Calibrate the MWA. I: Comparison of First Order Ionospheric Effects between GPS Models and MWA Observations
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