Radio continuum study of the Large Magellanic Cloud supernova remnant Honeycomb Nebula
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Published:2024
Issue:208
Volume:
Page:29-40
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ISSN:1450-698X
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Container-title:Serbian Astronomical Journal
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language:en
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Short-container-title:Serb Astron J
Author:
Alsaberi R.Z.E.1, Filipovic M.D.1ORCID, Sano H.2, Kavanagh P.3, Janas P.3, Payne J.L.1, Urosevic D.4ORCID
Affiliation:
1. Western Sydney University, Penrith South, Australia 2. Faculty of Engineering, Gifu University, Yanagido, Gifu, Japan + Center for Space Research and Utilization Promotion (c-SRUP), Gifu University, Yanagido, Gifu, Japan 3. Department of Experimental Physics, Maynooth University, Maynooth, Co. Kildare, Ireland 4. Department of Astronomy, Faculty of Mathematics, University of Belgrade, Belgrade, Serbia
Abstract
We present the first and deepest Australia Telescope Compact Array radio continuum images of the Honeycomb Nebula at 2000 and 5500MHz solely from archival data. The resolutions of these images are 3:6 x 2:8 arcsec2 and 1:3 x 1:2 arcsec2 at 2000 and 5500 MHz. We find an average radio spectral index for the remnant of -0:76?0:07. Polarisation maps at 5500MHz reveal an average fractional polarisation of 25 ? 5% with a maximum value of 95 ? 16. We estimate the equipartition field for Honeycomb Nebula of 48 ? 5 ?G, with an estimated minimum energy of Emin = 3 x 1049 erg. The estimated surface brightness, ?1 GHz, is 30 x 10-20Wm-2 Hz-1 sr-1; applying the ?-D relation suggests this supernova remnant is expanding into a low-density environment. Finally, using Hi data, we can support the idea that the Honeycomb Nebula exploded inside a low-density wind cavity. We suggest that this remnant is likely to be between late free expansion stage and early Sedov phase of evolution and expanding into a low-density medium.
Funder
Ministry of Education, Science and Technological Development of the Republic of Serbia
Publisher
National Library of Serbia
Reference48 articles.
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