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30 September 2004 VIRUS: a massively replicated IFU spectrograph for HET
Gary J. Hill, Phillip J. MacQueen, Carlos Tejada, Francisco J. Cobos, Povilas Palunas, Karl Gebhardt, Niv Drory
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Proceedings Volume 5492, Ground-based Instrumentation for Astronomy; (2004) https://doi.org/10.1117/12.552474
Event: SPIE Astronomical Telescopes + Instrumentation, 2004, Glasgow, United Kingdom
Abstract
We investigate the role of industrial replication in the construction of the next generation of spectrographs for large telescopes. In this paradigm, a simple base spectrograph unit is replicated to provide multiplex advantage, while the engineering costs are amortized over many copies. We argue that this is a cost-effective approach when compared to traditional spectrograph design, where each instrument is essentially a one-off prototype with heavy expenditure on engineering effort. As an example of massive replication, we present the design of, and the science drivers for, the Visible IFU Replicable Ultra-cheap Spectrograph (VIRUS). This instrument is made up of 132 individually small and simple spectrographs, each fed by a fiber integral field unit. The total VIRUS-132 instrument covers ~29 sq. arcminutes per observation, providing integral field spectroscopy from 340 to 570 nm, simultaneously, of 32,604 spatial elements, each 1 sq. arcsecond on the sky. VIRUS-132 will be mounted on the 9.2 m Hobby-Eberly Telescope and fed by a new wide-field corrector with a science field in excess of 16.5 arcminutes diameter. VIRUS represents a new approach to spectrograph design, offering the science multiplex advantage of huge sky coverage for an integral field spectrograph, coupled with the engineering multiplex advantage of >102 spectrographs making up a whole.
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Gary J. Hill, Phillip J. MacQueen, Carlos Tejada, Francisco J. Cobos, Povilas Palunas, Karl Gebhardt, and Niv Drory "VIRUS: a massively replicated IFU spectrograph for HET", Proc. SPIE 5492, Ground-based Instrumentation for Astronomy, (30 September 2004); https://doi.org/10.1117/12.552474
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Cited by 22 scholarly publications.
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KEYWORDS
Spectrographs
Telescopes
Charge-coupled devices
Sensors
Galactic astronomy
Prototyping
Ultraviolet radiation
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