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An ultraviolet imager to study bright UV sources

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dc.contributor.author Mathew, J
dc.contributor.author Prakash, A
dc.contributor.author Mayuresh, Sarpotdar
dc.contributor.author Sreejith, A. G
dc.contributor.author Safonova, M
dc.contributor.author Murthy, J
dc.date.accessioned 2020-11-19T14:06:56Z
dc.date.available 2020-11-19T14:06:56Z
dc.date.issued 2016-07
dc.identifier.citation Proceedings of the SPIE, Vol. 9905, pp. 990532-1-990532-7 en_US
dc.identifier.issn 1996-756X
dc.identifier.uri http://prints.iiap.res.in/handle/2248/7300
dc.description Restricted Access © SPIE--The International Society for Optical Engineering http://dx.doi.org/10.1117/12.2232977 en_US
dc.description.abstract We have designed and developed a compact ultraviolet imaging payload to y on a range of possible platforms such as high altitude balloon experiments, cubesats, space missions, etc. The primary science goals are to study the bright UV sources (mag < 10) and also to look for transients in the Near UV (200 - 300 nm) domain. Our first choice is to place this instrument on a spacecraft going to the Moon as part of the Indian entry into Google lunar X-Prize competition. The major constraints for the instrument are, it should be lightweight (< 2Kg), compact (length < 50cm) and cost effective. The instrument is an 80 mm diameter Cassegrain telescope with a field of view of around half a degree designated for UV imaging. In this paper we will discuss about the various science cases that can be performed by having observations with the instrument on different platforms. We will also describe the design, development and the current state of implementation of the instrument. This includes opto-mechanical and electrical design of the instrument. We have adopted an all spherical optical design which would make the system less complex to realize and a cost effective solution compared to other telescope configuration. The structural design has been chosen in such a way that it will ensure that the instrument could withstand all the launch load vibrations. An FPGA based electronics board is used for the data acquisition, processing and CCD control. We will also briefly discuss about the hardware implementation of the detector interface and algorithms for the detector readout and data processing. en_US
dc.language.iso en en_US
dc.publisher SPIE-The International Society for Optical Engineering en_US
dc.subject UV astronomy en_US
dc.subject UV instrumentation en_US
dc.subject UV telescope en_US
dc.title An ultraviolet imager to study bright UV sources en_US
dc.type Article en_US


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