Opening the dynamic infrared sky

Opening the dynamic infrared sky

© 2018 SPIE. While optical and radio transient surveys have enjoyed a renaissance over the past decade, the dynamic infrared sky remains virtually unexplored from the ground. The infrared is a powerful tool for probing transient events in dusty regions that have high optical extinction, and for dete...

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Main Authors: Soon, J., Moore, A., Kasliwal, M., Lau, R., De, K., Travouillon, T., Jones, M., Ofek, E., Smith, R., Terebizh, V., McKenna, D., Hale, D., Delacroix, A., Adams, S., Jencson, J., Ashley, M., Burnham, J., Sokoloski, J., Bland-Hawthorn, J., Freeman, K., De Marco, O., Cooke, J., Bland, P., Ryder, S., Soria, Roberto, Antoszewski, J., Heger, A., Spitler, L., Simcoe, R.
Format: Conference Paper
Published: 2018
Online Access:http://hdl.handle.net/20.500.11937/72051
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author Soon, J.
Moore, A.
Kasliwal, M.
Lau, R.
De, K.
Travouillon, T.
Jones, M.
Ofek, E.
Smith, R.
Terebizh, V.
McKenna, D.
Hale, D.
Delacroix, A.
Adams, S.
Jencson, J.
Ashley, M.
Burnham, J.
Sokoloski, J.
Bland-Hawthorn, J.
Freeman, K.
De Marco, O.
Cooke, J.
Bland, P.
Ryder, S.
Soria, Roberto
Antoszewski, J.
Heger, A.
Spitler, L.
Simcoe, R.
author_facet Soon, J.
Moore, A.
Kasliwal, M.
Lau, R.
De, K.
Travouillon, T.
Jones, M.
Ofek, E.
Smith, R.
Terebizh, V.
McKenna, D.
Hale, D.
Delacroix, A.
Adams, S.
Jencson, J.
Ashley, M.
Burnham, J.
Sokoloski, J.
Bland-Hawthorn, J.
Freeman, K.
De Marco, O.
Cooke, J.
Bland, P.
Ryder, S.
Soria, Roberto
Antoszewski, J.
Heger, A.
Spitler, L.
Simcoe, R.
author_sort Soon, J.
building Curtin Institutional Repository
collection Online Access
description © 2018 SPIE. While optical and radio transient surveys have enjoyed a renaissance over the past decade, the dynamic infrared sky remains virtually unexplored from the ground. The infrared is a powerful tool for probing transient events in dusty regions that have high optical extinction, and for detecting the coolest of stars that are bright only at these wavelengths. The fundamental roadblocks in studying the infrared time-domain have been the overwhelmingly bright sky background (250 times brighter than optical) and the narrow field-of-view of infrared cameras (largest is VISTA at 0.6 sq deg). To address these challenges, Palomar Gattini-IR is currently under construction at Palomar Observatory and we propose a further low risk, economical, and agile instrument to be located at Siding Spring Observatory, as well as further instruments which will be located at the high polar regions to take advantage of the low thermal sky emission, particularly in the 2.5 micron region.
first_indexed 2025-11-14T10:50:52Z
format Conference Paper
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institution Curtin University Malaysia
institution_category Local University
last_indexed 2025-11-14T10:50:52Z
publishDate 2018
recordtype eprints
repository_type Digital Repository
spelling curtin-20.500.11937-720512018-12-13T09:33:19Z Opening the dynamic infrared sky Soon, J. Moore, A. Kasliwal, M. Lau, R. De, K. Travouillon, T. Jones, M. Ofek, E. Smith, R. Terebizh, V. McKenna, D. Hale, D. Delacroix, A. Adams, S. Jencson, J. Ashley, M. Burnham, J. Sokoloski, J. Bland-Hawthorn, J. Freeman, K. De Marco, O. Cooke, J. Bland, P. Ryder, S. Soria, Roberto Antoszewski, J. Heger, A. Spitler, L. Simcoe, R. © 2018 SPIE. While optical and radio transient surveys have enjoyed a renaissance over the past decade, the dynamic infrared sky remains virtually unexplored from the ground. The infrared is a powerful tool for probing transient events in dusty regions that have high optical extinction, and for detecting the coolest of stars that are bright only at these wavelengths. The fundamental roadblocks in studying the infrared time-domain have been the overwhelmingly bright sky background (250 times brighter than optical) and the narrow field-of-view of infrared cameras (largest is VISTA at 0.6 sq deg). To address these challenges, Palomar Gattini-IR is currently under construction at Palomar Observatory and we propose a further low risk, economical, and agile instrument to be located at Siding Spring Observatory, as well as further instruments which will be located at the high polar regions to take advantage of the low thermal sky emission, particularly in the 2.5 micron region. 2018 Conference Paper http://hdl.handle.net/20.500.11937/72051 10.1117/12.2312731 restricted
spellingShingle Soon, J.
Moore, A.
Kasliwal, M.
Lau, R.
De, K.
Travouillon, T.
Jones, M.
Ofek, E.
Smith, R.
Terebizh, V.
McKenna, D.
Hale, D.
Delacroix, A.
Adams, S.
Jencson, J.
Ashley, M.
Burnham, J.
Sokoloski, J.
Bland-Hawthorn, J.
Freeman, K.
De Marco, O.
Cooke, J.
Bland, P.
Ryder, S.
Soria, Roberto
Antoszewski, J.
Heger, A.
Spitler, L.
Simcoe, R.
Opening the dynamic infrared sky
title Opening the dynamic infrared sky
title_full Opening the dynamic infrared sky
title_fullStr Opening the dynamic infrared sky
title_full_unstemmed Opening the dynamic infrared sky
title_short Opening the dynamic infrared sky
title_sort opening the dynamic infrared sky
url http://hdl.handle.net/20.500.11937/72051

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