Presentation + Paper
29 August 2022 Characterization of low light performance of a CMOS sensor for ultraviolet astronomical applications
Author Affiliations +
Abstract
CMOS detectors offer many advantages over CCDs for optical and UV astronomical applications, especially in space where high radiation tolerance is required. However, astronomical instruments are most often designed for low light-level observations demanding low dark current and read noise, good linearity and high dynamic range, characteristics that have not been widely demonstrated for CMOS imagers. We report the performance, over temperatures from 140 - 240 K, of a radiation hardened SRI 4K×2K back-side illuminated CMOS image sensor with surface treatments that make it highly sensitive in blue and UV bands. After suppressing emission from glow sites resulting from defects in the engineering grade device examined in this work, a 0.077 me/s dark current floor is reached at 160 K, rising to 1 me/s at 184 K, rivaling that of the best CCDs. We examine the trade-off between readout speed and read noise, finding that 1.43 e median read noise is achieved using line-wise digital correlated double sampling at 700 kpix/s/ch corresponding to a 1.5 s readout time. The 15 ke well capacity in high gain mode extends to 120 ke in dual gain mode. Continued collection of photo-generated charge during readout enables a further dynamic range extension beyond 106 e effective well capacity with only 1% loss of exposure efficiency by combining short and long exposures. A quadratic fit to correct for non-linearity reduces gain correction residuals from 1.5% to 0.2% in low gain mode and to 0.4% in high gain mode. Cross-talk to adjacent pixels is only 0.4% vertically, 0.6% horizontally and 0.1% diagonally. These characteristics plus the relatively large (10μm) pixel size, quasi 4-side buttability, electronic shutter and sub-array readout make this sensor an excellent choice for wide field astronomical imaging in space, even at FUV wavelengths where sky background is very low.
Conference Presentation
© (2022) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Timothee Greffe, Roger Smith, Myles Sherman, Fiona Harrison, Hannah Earnshaw, Brian Grefenstette, John Hennessy, and Shouleh Nikzad "Characterization of low light performance of a CMOS sensor for ultraviolet astronomical applications", Proc. SPIE 12191, X-Ray, Optical, and Infrared Detectors for Astronomy X, 121910E (29 August 2022); https://doi.org/10.1117/12.2629198
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KEYWORDS
Sensors

Cadmium sulfide

Photons

CMOS sensors

Ultraviolet radiation

Video

Charge-coupled devices

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