10 August 2024 Soft X-ray quantum efficiency of a commercial CMOS imaging sensor
Author Affiliations +
Abstract

The demonstrated performance and cost-effectiveness of complementary metal–oxide–semiconductor (CMOS) sensors make them a potentially attractive option for low-cost space-based X-ray observatories. We have previously reported on the performance of a commercially available backside-illuminated Sony IMX290LLR-C CMOS sensor and found it to offer X-ray spectral resolutions comparable to the charged coupled devices (CCDs) aboard Suzaku and Chandra and to have a sufficient radiation hardness for use in low Earth orbit. In this work, we report on the quantum efficiency (QE) of this sensor, an essential metric for modeling the sensitivity of an instrument as an X-ray detector. Using the Advanced Photon Source at Argonne National Laboratory, we measure the soft X-ray QE of this CMOS sensor to be 0.28±0.02 at a photon energy of 490.5 eV. This energy was chosen for its proximity to the astrophysically important O VII triplet emission lines (574 eV) studied by the HaloSat mission. Although not surpassing that of the back-illuminated CCDs aboard Suzaku and Chandra, this QE compares favorably to that of the front-illuminated CCDs aboard the same observatories and is competitive with that of the silicon drift detectors used aboard HaloSat, making it a strong candidate for use on future X-ray small satellite (SmallSat) missions.

© 2024 Society of Photo-Optical Instrumentation Engineers (SPIE)
Colin M. Packard, Steve Tammes, Philip Kaaret, Casey DeRoo, Jessica L. McChesney, John W. Freeland, and Fanny Rodolakis "Soft X-ray quantum efficiency of a commercial CMOS imaging sensor," Journal of Astronomical Telescopes, Instruments, and Systems 10(3), 036001 (10 August 2024). https://doi.org/10.1117/1.JATIS.10.3.036001
Received: 1 November 2023; Accepted: 4 July 2024; Published: 10 August 2024
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KEYWORDS
Quantum efficiency

CMOS sensors

Photodiodes

X-rays

Quantum uncertainty

Calibration

Quantum sensors

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