Testing SPI imaging of high-energy and extended sources

CB Wunderer; Paul Connell; JW Hammer; V Schonfelder; AW Strong

doi:10.1051/0004-6361:20031394

Testing SPI imaging of high-energy and extended sources

CB Wunderer, Paul Connell, JW Hammer, V Schonfelder, AW Strong

Physics and Astronomy

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Abstract

INTEGRAL's main instruments employ coded apertures to obtain directional information on the incoming radiation. In order to experimentally better determine the imaging capabilities of the spectrometer SPI, the SPI Imaging Test Setup (SPITS) has been built at MPE. It consists of the SPI coded mask and two SPI-identical Ge detectors on an XY-table which allows us to move them to cover the 19 Ge detector positions. The SPI flight model imaging calibration only covered the energy range up to 2.7 MeV and did not include extended emission. SPITS was used to explore the performance of such a coded aperture system-combined with the SPI image analysis software-for higher-energy point sources and extended sources. We find that a 2.4degrees diameter disk emitting 511 keV emission is reconstructed well. For the high signal-to-noise ratios of laboratory measurements, positions of point sources above 4 MeV could be reconstructed to better than 0.1degrees.

Original language	English
Pages (from-to)	L101-L105
Journal	Astronomy and Astrophysics
Volume	411
Issue number	1
DOIs	https://doi.org/10.1051/0004-6361:20031394
Publication status	Published - 1 Nov 2003

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title = "Testing SPI imaging of high-energy and extended sources",

abstract = "INTEGRAL's main instruments employ coded apertures to obtain directional information on the incoming radiation. In order to experimentally better determine the imaging capabilities of the spectrometer SPI, the SPI Imaging Test Setup (SPITS) has been built at MPE. It consists of the SPI coded mask and two SPI-identical Ge detectors on an XY-table which allows us to move them to cover the 19 Ge detector positions. The SPI flight model imaging calibration only covered the energy range up to 2.7 MeV and did not include extended emission. SPITS was used to explore the performance of such a coded aperture system-combined with the SPI image analysis software-for higher-energy point sources and extended sources. We find that a 2.4degrees diameter disk emitting 511 keV emission is reconstructed well. For the high signal-to-noise ratios of laboratory measurements, positions of point sources above 4 MeV could be reconstructed to better than 0.1degrees.",

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AU - Wunderer, CB

AU - Connell, Paul

AU - Hammer, JW

AU - Schonfelder, V

AU - Strong, AW

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AB - INTEGRAL's main instruments employ coded apertures to obtain directional information on the incoming radiation. In order to experimentally better determine the imaging capabilities of the spectrometer SPI, the SPI Imaging Test Setup (SPITS) has been built at MPE. It consists of the SPI coded mask and two SPI-identical Ge detectors on an XY-table which allows us to move them to cover the 19 Ge detector positions. The SPI flight model imaging calibration only covered the energy range up to 2.7 MeV and did not include extended emission. SPITS was used to explore the performance of such a coded aperture system-combined with the SPI image analysis software-for higher-energy point sources and extended sources. We find that a 2.4degrees diameter disk emitting 511 keV emission is reconstructed well. For the high signal-to-noise ratios of laboratory measurements, positions of point sources above 4 MeV could be reconstructed to better than 0.1degrees.

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JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

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Testing SPI imaging of high-energy and extended sources

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