2018
DOI: 10.1016/j.infrared.2018.09.027
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III-V detector technologies at Sofradir: Dealing with image quality

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Cited by 8 publications
(6 citation statements)
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“…Because E z 2 is greatest near the cavity sidewall surfaces (See Figure 1D), depletion near the sidewalls could strongly degrade the responsivity. Because QWIPs are unipolar devices, surface passivation and prevention of oxidation have typically been considered unnecessary [26]. However, the observed drastic decrease in the responsivity only for etched detectors suggests the etched surfaces are limiting device performance.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…Because E z 2 is greatest near the cavity sidewall surfaces (See Figure 1D), depletion near the sidewalls could strongly degrade the responsivity. Because QWIPs are unipolar devices, surface passivation and prevention of oxidation have typically been considered unnecessary [26]. However, the observed drastic decrease in the responsivity only for etched detectors suggests the etched surfaces are limiting device performance.…”
Section: Resultsmentioning
confidence: 99%
“…Nonetheless, etched stripes are found to be the superior structure with higher D * due to their reduced I D . Surface effects such as depletion layers and etching damage have been considered insignificant for conventional QWIPs [26], but may have greater impact on metasurface QWIP performance because absorption is strongest at the cavity sidewalls and the etched surface areas are much larger. Appropriate sidewall surface treatments could therefore lead to further improvement in etched detector performance.…”
Section: Introductionmentioning
confidence: 99%
“…We envision that through the same concept easy in situ and large-scale heterostacking of multiple 2D materials could be achievable, with hundreds of 2D materials and their 2D alloys virtually accessible by the PLD approach. This large playground for heterostructure engineering with 2D materials unlocked by the PLD approach is reminiscent of the successful applicative exploitation of III–V semiconductor families. Our work is thus a step toward the fabrication of advanced transport functions modulated by the insertion and combination of the large families of 2D materials now being uncovered and characterized.…”
Section: Discussionmentioning
confidence: 99%
“…Two-dimensional semiconductors have been hailed as ultimately thin functional electronic materials, with potential applications for instance in electronics, optoelectronics, and spintronics. Their assembly into heterostructures with atomic precision is expected to lead to a wealth of properties and device structures, reminiscent of the successful exploitation of III–V semiconductor families. Indeed, the precise band-gap landscape engineering allowed by 2D material stacking promises eased functional structure definition, including atomically defined quantum wells and vertical superlattices such as quantum cascades. This vision is fueled by the extremely large extension of 2D material families being now uncovered with fine modulation of their properties by their atomic composition (including doping and alloying), , adjacent crystallography angle control, , and proximity effects maximized by their atomic 2D geometry. Illustratively, beyond elemental 2D materials such as silicene and phosphorene, large varieties of mono-, bi-, and trichalcogenides are identified and studied.…”
Section: Introductionmentioning
confidence: 99%
“…Dark current mastering is crucial for the production of both high quality FPA SWIR detectors for low light level imaging and for the production of uncooled FPA SWIR detectors intended to machine vision. It has been shown in a previous article [7] that dark current has direct impact on several key parameters of the FPA (dynamical resistance, spatial noise …).…”
Section: Dark Currentmentioning
confidence: 95%