Comparative study on dark current mechanisms of n-on-p and p-on-n long-wavelength HgCdTe infrared detectors

•The J-V curves of long-wavelength MCT infrared detectors with planar n-on-p and p-on-n structures are measured and compared in the temperature range of 55–130 K.•The dark current of p-on-n device is around one order of magnitude lower than that of n-on-p device at small reverse bias voltage due to...

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Published in:Infrared physics & technology 2022-06, Vol.123, p.104166, Article 104166
Main Authors: Li, Xun, Wang, Xi, Zhou, Songmin, Lin, Chun, Wei, Yanfeng, Sun, Quanzhi, Gan, Zhikai
Format: Article
Language:English
Subjects:
Dark current
MCT infrared detectors
n-on-p structure
p-on-n structure
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Summary:•The J-V curves of long-wavelength MCT infrared detectors with planar n-on-p and p-on-n structures are measured and compared in the temperature range of 55–130 K.•The dark current of p-on-n device is around one order of magnitude lower than that of n-on-p device at small reverse bias voltage due to the suppression of diffusion current.•The TAT current is more obvious for n-on-p device because of the higher trap density in the depletion region. The larger donor and acceptor concentrations lead to a larger BBT current of p-on-n device. The dark current density versus voltage (J-V) curves of long-wavelength mercury cadmium telluride (HgCdTe, MCT) infrared detectors with planar n-on-p and p-on-n structures are measured and compared in this study. The dark currents are decomposed into diffusion, generation–recombination (GR), trap-assisted tunneling (TAT), band-to-band tunneling (BBT) and shunt current for the two types of devices. It was found that the dark current is dominated by diffusion current at -0.05 V in the temperature range of 55–130 K for both of the two devices. Due to the longer minority carrier lifetime, the diffusion current of p-on-n device is suppressed and the total dark current is around one order of magnitude lower than that of n-on-p device at small reverse bias voltage. The tunneling current becomes the main ingredient of dark current at -0.3 V when the operating temperature is lower than 65 K. Because of the higher trap density in the depletion region, the TAT current is more obvious for n-on-p device. The larger donor and acceptor concentrations lead to a larger BBT current of p-on-n device.
ISSN:1350-4495
1879-0275
DOI:10.1016/j.infrared.2022.104166