Observing the galactic plane with the Balloon-borne Large-Aperture Submillimeter Telescope

Stars form from collapsing massive clouds of gas and dust. The UV and optical light emitted by a forming or recently-formed star is absorbed by the surrounding cloud and is re-radiated thermally at infrared and submillimetre wavelengths. Observations in the submillimetre spectrum are uniquely sensit...

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Main Author: Marsden, Gaelen
Format: Others
Language:en
Published: University of British Columbia 2007
Subjects:
Online Access:http://hdl.handle.net/2429/205
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-BVAU.-2052013-06-05T04:16:22ZObserving the galactic plane with the Balloon-borne Large-Aperture Submillimeter TelescopeMarsden, Gaelensubmillimeter telescopeGalactic star formationStars form from collapsing massive clouds of gas and dust. The UV and optical light emitted by a forming or recently-formed star is absorbed by the surrounding cloud and is re-radiated thermally at infrared and submillimetre wavelengths. Observations in the submillimetre spectrum are uniquely sensitive to star formation in the early Universe, as the peak of the thermal emission is redshifted to submillimetre wavelengths. The coolest objects in star forming regions in our own Galaxy, including heavily-obscured proto-stars and starless gravitationally-bound clumps, are also uniquely bright in the submillimetre spectrum. The Earth's atmosphere is mostly opaque at these wavelengths, however, limiting the spectral coverage and sensitivity achievable from ground-based observatories. The Balloon-borne Large Aperture Submillimeter Telescope (BLAST) observes the sky from an altitude of 40 km, above 99.5% of the atmosphere, using a long-duration scientific balloon platform. BLAST observes at 3 broad-band wavelengths spanning 250-500 micron, taking advantage of detector technology developed for the space-based instrument SPIRE, scheduled for launch in 2008. The greatly-enhanced atmospheric transmission at float altitudes, increased detector sensitivity and large number of detector elements allow BLAST to survey much larger fields in a much smaller time than can be accomplished with ground-based instruments. It is expected that in a single 10-day flight, BLAST will detect ~10000 extragalactic sources, ~100 times the number detected in 10 years of ground-based observations, and 1000s of Galactic star-forming sources, a large fraction of which are not seen by infrared telescopes. The instrument has performed 2 scientific flights, in the summer of 2005 and winter of 2006, for a total of 16 days of observing time. This thesis discusses the design of the instrument, performance of the flights, and presents the analysis of 2 of the fields observed during the first flight. A failure in the optical system during the first flight precluded sensitive extragalactic observations, so the majority of the flight was spent observing Galactic targets. We anticipate exciting extragalactic and Galactic results from the 2006 data.University of British Columbia2007-12-012007-12-0120072007-12-012008-05Electronic Thesis or Dissertation3858157 bytesapplication/pdfhttp://hdl.handle.net/2429/205en
collection NDLTD
language en
format Others
sources NDLTD
topic submillimeter telescope
Galactic star formation
spellingShingle submillimeter telescope
Galactic star formation
Marsden, Gaelen
Observing the galactic plane with the Balloon-borne Large-Aperture Submillimeter Telescope
description Stars form from collapsing massive clouds of gas and dust. The UV and optical light emitted by a forming or recently-formed star is absorbed by the surrounding cloud and is re-radiated thermally at infrared and submillimetre wavelengths. Observations in the submillimetre spectrum are uniquely sensitive to star formation in the early Universe, as the peak of the thermal emission is redshifted to submillimetre wavelengths. The coolest objects in star forming regions in our own Galaxy, including heavily-obscured proto-stars and starless gravitationally-bound clumps, are also uniquely bright in the submillimetre spectrum. The Earth's atmosphere is mostly opaque at these wavelengths, however, limiting the spectral coverage and sensitivity achievable from ground-based observatories. The Balloon-borne Large Aperture Submillimeter Telescope (BLAST) observes the sky from an altitude of 40 km, above 99.5% of the atmosphere, using a long-duration scientific balloon platform. BLAST observes at 3 broad-band wavelengths spanning 250-500 micron, taking advantage of detector technology developed for the space-based instrument SPIRE, scheduled for launch in 2008. The greatly-enhanced atmospheric transmission at float altitudes, increased detector sensitivity and large number of detector elements allow BLAST to survey much larger fields in a much smaller time than can be accomplished with ground-based instruments. It is expected that in a single 10-day flight, BLAST will detect ~10000 extragalactic sources, ~100 times the number detected in 10 years of ground-based observations, and 1000s of Galactic star-forming sources, a large fraction of which are not seen by infrared telescopes. The instrument has performed 2 scientific flights, in the summer of 2005 and winter of 2006, for a total of 16 days of observing time. This thesis discusses the design of the instrument, performance of the flights, and presents the analysis of 2 of the fields observed during the first flight. A failure in the optical system during the first flight precluded sensitive extragalactic observations, so the majority of the flight was spent observing Galactic targets. We anticipate exciting extragalactic and Galactic results from the 2006 data.
author Marsden, Gaelen
author_facet Marsden, Gaelen
author_sort Marsden, Gaelen
title Observing the galactic plane with the Balloon-borne Large-Aperture Submillimeter Telescope
title_short Observing the galactic plane with the Balloon-borne Large-Aperture Submillimeter Telescope
title_full Observing the galactic plane with the Balloon-borne Large-Aperture Submillimeter Telescope
title_fullStr Observing the galactic plane with the Balloon-borne Large-Aperture Submillimeter Telescope
title_full_unstemmed Observing the galactic plane with the Balloon-borne Large-Aperture Submillimeter Telescope
title_sort observing the galactic plane with the balloon-borne large-aperture submillimeter telescope
publisher University of British Columbia
publishDate 2007
url http://hdl.handle.net/2429/205
work_keys_str_mv AT marsdengaelen observingthegalacticplanewiththeballoonbornelargeaperturesubmillimetertelescope
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