Accurate Determination of Conversion Gains of SVOM VT CCDs Based on a Signal-Dependent Charge-Sharing Mechanism

Pan, Yue; Fan, X.; Hu, Wang; Zhao, Hui; Qiu, Y.; Gao, Wei; Zhang, Jian

doi:10.3390/electronics10080931

Cited by 4 publications

(2 citation statements)

References 13 publications

(21 reference statements)

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“…The experimental results demonstrate that this method can achieve a gain calibration uncertainty of approximately 1%, indicating its effectiveness in ensuring accurate quantum efficiency calibration. The gain measurement results can be found in Table 1, while additional detailed information can be referred to in Reference [11]. The data from the integrated sphere photodiode and the grayscale of the images at different wavelengths were recorded.…”

Section: Experiments and Resultsmentioning

confidence: 99%

Research on quantum efficiency calibration of SVOM VT CCDs

Pan,

Dan,

Sun

et al. 2023

AOPC 2023: Novel Technologies and Instruments for Astronomical Imaging and Spectroscopy

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Section: Experiments and Resultsmentioning

confidence: 99%

Research on quantum efficiency calibration of SVOM VT CCDs

Pan,

Dan,

Sun

et al. 2023

AOPC 2023: Novel Technologies and Instruments for Astronomical Imaging and Spectroscopy

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“…According to the relevant theory of quantum electrodynamics, the charge number of the photoelectric conversion follows a Poisson distribution [26,27]. Therefore, the target photon noise N 1 is equal to:…”

Section: Theoretical Analysismentioning

confidence: 99%

Design and Performance Analysis of the Highly Sensitive Deep Vacuum Cooling sCMOS Imaging System for Highly Sensitive Detection of Space Targets

Liu

Shao

et al. 2023

Photonics

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The sCMOS imaging system with deep vacuum cooling technology has become a necessary way to improve the detection capability of space targets. In order to improve the detection capability of the photoelectric detection equipment for space targets, this paper developed the Highly Sensitive Deep Vacuum Cooling Imaging System (HSDVCIS). Firstly, we designed the imaging readout processing circuit using the GSENSE4040 sCMOS image sensor designed and manufactured by Gpixel and the deep vacuum cooling structure using thermoelectric cooling. Then, we tested the designed HSDVCIS with readout noise, dark current, and dynamic range of 3.96 e−, 0.12 e−/pixel/sec, and 84.49 dB, respectively, and tested the image sensor with a minimum cooling temperature of −40 °C. Finally, according to the results of observation experiments, we validated that the photoelectric detection equipment equipped with HSDVCIS improved the limiting detection magnitude (at SNR = 5 level) from 13.22 to 13.51 magnitudes within a 3 s exposure time by turning on the cooling function. Therefore, HSDVCIS designed in this paper can achieve highly sensitive detection of space targets. At the same time, the development of HSDVCIS also provides technical reserves and strong support for future research on the imaging systems using multiple image sensor mosaics.

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Research on radiometric calibration of the SVOM Visible Telescope

Pan

2022

PASP

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The Visible Telescope (VT), which is the primary payload for the Chinese-French Space Multi-band Variable Object Monitor (SVOM) mission, is designed to observe the optical afterglow of gamma-ray bursts (GRBs). While calibration is one of the key factors to validate that VT achieves its scientific objectives in terms of detection limit, photometric accuracy and photometric system deviation. In the dissertation, based on the scientific objectives and optomechanical parameters of SVOM VT, the calibration techniques for space-based astronomical telescopes are studied. We have carried out comprehensive characterization and high-precision calibration of VT qualification model in three phases: detector, instrumentation and in-orbit laboratory verification, and all tests have reached the desired results and meet the requirements of calibration indicators.

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Accurate Determination of Conversion Gains of SVOM VT CCDs Based on a Signal-Dependent Charge-Sharing Mechanism

Cited by 4 publications

References 13 publications

Research on quantum efficiency calibration of SVOM VT CCDs

Research on quantum efficiency calibration of SVOM VT CCDs

Design and Performance Analysis of the Highly Sensitive Deep Vacuum Cooling sCMOS Imaging System for Highly Sensitive Detection of Space Targets

Research on radiometric calibration of the SVOM Visible Telescope

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