Quasioptical Systems & Components for Terahertz Astronomy

Over the past two decades, submillimeter and terahertz astronomy has grown rapidly and become an important new window for studying the universe. This growth has been enabled by the confluence of several technologies which make the design and fabrication of high frequency single and multi-pixel heter...

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Main Author: Golish, Dathon R
Other Authors: Walker, Christopher K, Burge, James, Fallahi, James
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: The University of Arizona. 2008
Subjects:
Antarctic
South Pole
The Antarctic
Antarc*
Antarctica
South pole
Online Access:http://hdl.handle.net/10150/195891
id ftunivarizona:oai:repository.arizona.edu:10150/195891
record_format openpolar
spelling ftunivarizona:oai:repository.arizona.edu:10150/195891 2023-05-15T13:32:06+02:00 Quasioptical Systems & Components for Terahertz Astronomy Golish, Dathon R Walker, Christopher K Burge, James Fallahi, James 2008 http://hdl.handle.net/10150/195891 EN eng The University of Arizona. http://hdl.handle.net/10150/195891 752261064 2902 Copyright © is held by the author. Digital access to this material is made possible by the University Libraries, University of Arizona. Further transmission, reproduction or presentation (such as public display or performance) of protected items is prohibited except with permission of the author. text Electronic Dissertation 2008 ftunivarizona 2020-06-14T08:05:00Z Over the past two decades, submillimeter and terahertz astronomy has grown rapidly and become an important new window for studying the universe. This growth has been enabled by the confluence of several technologies which make the design and fabrication of high frequency single and multi-pixel heterodyne receivers possible. This dissertation reviews the development of a new generation of terahertz instrumentation at the University of Arizona, with specific emphasis on their optical components and systems. These instruments include several receivers for the Antarctic Submillimeter Telescope and Remote Observatory (formerly installed at the South Pole), including a dual-frequency 492/810 GHz receiver called Wanda, a 4-pixel 810 GHz heterodyne array called PoleSTAR, and a 1.5 THz receiver called TREND. It also covers receivers for the Heinrich Hertz Submillimeter Telescope on Mt. Graham in southern Arizona. These receivers include a 7-pixel 345 GHz heterodyne array called DesertSTAR, a 64-pixel polarimeter/bolometer system called Hertz, and a 64-pixel 345 GHz heterodyne array called SuperCam. After reviewing these instruments, concepts for the next generation of arrays and terahertz telescopes designed for the high Atacama desert, Antarctica, high altitude balloon missions, and orbiting observatories will be presented. This dissertation will also cover other contributions made to terahertz astronomy, including the creation of a Gaussian beam propagation program to help design terahertz optical systems and an integrated optics design for a waveguide interferometer to be used as an alternative to traditional bulk optics systems. Doctoral or Postdoctoral Thesis Antarc* Antarctic Antarctica South pole South pole The University of Arizona: UA Campus Repository Antarctic South Pole The Antarctic
institution Open Polar
collection The University of Arizona: UA Campus Repository
op_collection_id ftunivarizona
language English
description Over the past two decades, submillimeter and terahertz astronomy has grown rapidly and become an important new window for studying the universe. This growth has been enabled by the confluence of several technologies which make the design and fabrication of high frequency single and multi-pixel heterodyne receivers possible. This dissertation reviews the development of a new generation of terahertz instrumentation at the University of Arizona, with specific emphasis on their optical components and systems. These instruments include several receivers for the Antarctic Submillimeter Telescope and Remote Observatory (formerly installed at the South Pole), including a dual-frequency 492/810 GHz receiver called Wanda, a 4-pixel 810 GHz heterodyne array called PoleSTAR, and a 1.5 THz receiver called TREND. It also covers receivers for the Heinrich Hertz Submillimeter Telescope on Mt. Graham in southern Arizona. These receivers include a 7-pixel 345 GHz heterodyne array called DesertSTAR, a 64-pixel polarimeter/bolometer system called Hertz, and a 64-pixel 345 GHz heterodyne array called SuperCam. After reviewing these instruments, concepts for the next generation of arrays and terahertz telescopes designed for the high Atacama desert, Antarctica, high altitude balloon missions, and orbiting observatories will be presented. This dissertation will also cover other contributions made to terahertz astronomy, including the creation of a Gaussian beam propagation program to help design terahertz optical systems and an integrated optics design for a waveguide interferometer to be used as an alternative to traditional bulk optics systems.
author2 Walker, Christopher K
Burge, James
Fallahi, James
format Doctoral or Postdoctoral Thesis
author Golish, Dathon R
spellingShingle Golish, Dathon R
Quasioptical Systems & Components for Terahertz Astronomy
author_facet Golish, Dathon R
author_sort Golish, Dathon R
title Quasioptical Systems & Components for Terahertz Astronomy
title_short Quasioptical Systems & Components for Terahertz Astronomy
title_full Quasioptical Systems & Components for Terahertz Astronomy
title_fullStr Quasioptical Systems & Components for Terahertz Astronomy
title_full_unstemmed Quasioptical Systems & Components for Terahertz Astronomy
title_sort quasioptical systems & components for terahertz astronomy
publisher The University of Arizona.
publishDate 2008
url http://hdl.handle.net/10150/195891
geographic Antarctic
South Pole
The Antarctic
geographic_facet Antarctic
South Pole
The Antarctic
genre Antarc*
Antarctic
Antarctica
South pole
South pole
genre_facet Antarc*
Antarctic
Antarctica
South pole
South pole
op_relation http://hdl.handle.net/10150/195891
752261064
2902
op_rights Copyright © is held by the author. Digital access to this material is made possible by the University Libraries, University of Arizona. Further transmission, reproduction or presentation (such as public display or performance) of protected items is prohibited except with permission of the author.
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