Uncooled infrared focal plane array imaging in China

Lei, Shuyu

doi:10.1117/12.2176032

Cited by 3 publications

(2 citation statements)

References 5 publications

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“…This criterion is commonly referred to as SWaP 3 , which stands for Size, Weight, and Power consumption reduction while maintaining high Performance and low Price. , Thus, achieving high operating temperatures, multiband fusion, small pixels, and very large-scale integration is a highly desirable but extremely challenging goal for the development of fourth-generation infrared detectors. These detectors are crucial in supporting large-scale applications that require high performance, miniaturization, and intelligent integration in the future. − …”

Section: Introductionmentioning

confidence: 99%

High-Performance Uncooled Mid-Infrared Detector Based on a Polycrystalline PbSe/CdSe Heterojunction

Qiu

McDowell

et al. 2023

ACS Appl. Mater. Interfaces

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Developing high-performance, uncooled mid-wavelength infrared (MWIR) detectors is a challenging task due to the inherent physical properties of materials and manufacturing technologies. In this study, we designed and manufactured an uncooled polycrystalline PbSe/CdSe heterojunction photovoltaic (PV) detector through vapor physical deposition. The resulting 10 μm × 10 μm device exhibited a peak detectivity of 7.5 × 109 and 3 × 1010 cm·Hz1/2·W–1 at 298 and 220 K, respectively, under blackbody radiation. These values are comparable to those of typical PbSe photoconductive detectors fabricated through standard chemical bath deposition. Additionally, the sensitization-free process used to create these PbSe/CdSe PV detectors allows for high replicability and yield, making them promising candidates for low-cost, high-performance, uncooled MWIR focal plane array imaging in commercial applications.

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Section: Introductionmentioning

confidence: 99%

High-Performance Uncooled Mid-Infrared Detector Based on a Polycrystalline PbSe/CdSe Heterojunction

Qiu

McDowell

et al. 2023

ACS Appl. Mater. Interfaces

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“…Although microbolometers have lower cost than photon detectors, they are still considered to be too expensive for medium, low, and ultra-low-end civilian applications such as industrial maintenance, automotive, and portable devices. This limits the expansion into these potentially very large markets [4,5].…”

Section: Introductionmentioning

confidence: 99%

Dual-Level Capacitive Micromachined Uncooled Thermal Detector

Tawfik

Allidina²,

Nabki

et al. 2019

Sensors

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This paper presents a novel dual-level capacitive microcantilever-based thermal detector that is implemented in the commercial surface micromachined PolyMUMPs technology. The proposed design is implemented side-by-side with four different single-level designs to enable a design-to-design performance comparison. The dual-level design exhibits a rate of capacitance change per degree Celsius that is over three times higher than that of the single-level designs and has a base capacitance that is more than twice as large. These improvements are achieved because the dual-level architecture allows a 100% electrode-to-detector area, while single-level designs are shown to suffer from an inherent trade-off between sensitivity and base capacitance. In single-level designs, either the number of the bimorph beams or the capacitance electrode can be increased for a given sensor area. The former is needed for a longer effective length of the bimorph for higher thermomechanical sensitivity (i.e., larger tilting angels per degree Celsius), while the latter is desired to relax the read-out integrated-circuits requirements. This thermomechanical response-to-initial capacitance trade-off is mitigated by the dual-level design, which dedicates one structural layer to serve as the upper electrode of the detector, while the other layer contains as many bimorph beams as desired, independently of the former’s area.

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