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5 July 2000 AMBER performances: signal-to-noise ratio analysis
Fabien Malbet, Alain Chelli, Romain Gueorguiev Petrov
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Proceedings Volume 4006, Interferometry in Optical Astronomy; (2000) https://doi.org/10.1117/12.390213
Event: Astronomical Telescopes and Instrumentation, 2000, Munich, Germany
Abstract
We present the method which computes the expected signal-to- noise ratio of the observations carried out by AMBER, the near-infrared focal instrument of the VLTI. We include photon noise, detector read-out noise, thermal noise as well as the instrument OPD stability and Strehl fluctuations. We believe that this algorithm can be extended to any other optical interferometers. The performances are computed in a variety of conditions: size of the apertures (8-m Unit telescopes or 1.8-m Auxiliary telescopes), adaptive optics correction (tip-tilt, 64 actuators), atmospheric conditions (averaged 0.7 arcsecond seeing and excellent 0.5 arcsecond seeing), wavelengths (from the J-band to the K-band), fringe tracking accuracy (from no to perfect fringe tracking), elementary exposure times, spectral resolution (35, 1000 and 10000), off-axis/on-axis operation.
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Fabien Malbet, Alain Chelli, and Romain Gueorguiev Petrov "AMBER performances: signal-to-noise ratio analysis", Proc. SPIE 4006, Interferometry in Optical Astronomy, (5 July 2000); https://doi.org/10.1117/12.390213
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KEYWORDS
Signal to noise ratio
Telescopes
Adaptive optics
Sensors
Visibility
Astatine
Optical fibers
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