Journal
APPLIED PHYSICS LETTERS
Volume 117, Issue 16, Pages -Publisher
AMER INST PHYSICS
DOI: 10.1063/5.0020000
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Funding
- Air Force Research Lab (AFRL)
- Defense Advanced Research Projects Agency (DARPA) [FA8650-18-2-7876]
- AFRL
- Southwestern Council for Higher Education (SOCHE) [FA8650-12-2-7248]
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We theoretically and experimentally investigate the application of an open-circuit voltage photodetector (VocP) architecture for mid-wave infrared (MWIR, 3-5 mu m) detection and imaging. In contrast to conventional reverse-bias (RB) operation of the diode, which generates a photocurrent that is proportional to the photon irradiance, we evaluate the potential of using unbiased diodes that generate an open-circuit voltage, V-OC, under illumination. The predicted Noise Equivalent Differential Temperature (NEDT) of a VocP is inferior to conventional RB when we assume an infinite well capacity and fixed integration time, but the prediction reverses when the actual well capacity of a readout integrated circuit (ROIC) is taken into account. Therefore, for a focal plane array (FPA) with a ROIC, we predict superior NEDT for the VocP. To demonstrate this concept, we fabricated and tested a basic VocP unit-cell architecture by connecting the V-OC anode of a MWIR photodiode to the gate of an n-type metal-oxide semiconductor transistor that is operated in sub-threshold. Very good agreement is obtained between the analytical model and the observed drain current of the transistor over three orders of photon irradiance (10(15)-10(18) photons/sec-cm(2)). The decoupling of the diode photocurrent from the integration capacitor in the circuit leads to a lower dark current that allows for longer integration times and improved sensitivity. This potentially can have a great impact on the performance and functionality of FPAs, leading to FPAs with better NEDT at a higher operating temperature, wider dynamic range, and smaller pixel size leading to larger array formats. Published under license by AIP Publishing. https://doi.org/10.1063/5.0020000
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