Comparison of laboratory and in-flight performance of infared array camera (IRAC) detector arrays on Spitzer Space Telescope
2004; SPIE; Volume: 5487; Linguagem: Inglês
10.1117/12.551599
ISSN1996-756X
AutoresJ. L. Pipher, Craig W. McMurtry, W. J. Forrest, Craig R. McCreight, Mark E. McKelvey, Robert E. McMurray, Roy R. Johnson, G. G. Fazio, Joseph L. Hora, Lori Allen, M. L. N. Ashby, P. Barmby, Lynne K. Deutsch, Jiasheng Huang, M. Marengo, S. T. Megeath, M. A. Pahre, B. M. Patten, Zhong Wang, S. P. Willner, W. F. Hoffmann, Samuel H. Moseley, Richard G. Arendt, Danny J. Krebs, Peter Eisenhardt, Daniel Stern, Varoujan Gorjian, B. Bhattacharya, W. Glaccum, Mark Lacy, Patrick Lowrance, S. Carey, Seppo Laine, J. R. Stauffer, J. Surace, W. T. Reach, Gillian Wilson,
Tópico(s)CCD and CMOS Imaging Sensors
ResumoThe Infrared Array Camera (IRAC) on Spitzer Space Telescope includes four Raytheon Vision Systems focal plane arrays, two with InSb detectors, and two with Si:As detectors. A brief comparison of pre- flight laboratory results vs. in-flight performance is given, including quantum efficiency and noise, as well as a discussion of irregular effects, such as residual image performance, "first frame effect", "banding", "column pull-down" and multiplexer bleed. Anomalies not encountered in pre-flight testing, as well as post-flight laboratory tests on these anomalies at the University of Rochester and at NASA Ames using sister parts to the flight arrays, are emphasized.
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