HgCdTe p-on-n Focal-Plane Array Fabrication Using Arsenic Incorporation During MBE Growth

Gravrand, O.; Ballet, P.; Baylet, J.; Baier, N.

doi:10.1007/s11664-009-0794-3

Cited by 7 publications

(2 citation statements)

References 10 publications

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“…This effect has been already observed in our laboratory on other heterostructures grown, for example, by MBE. 10 However, another hypothesis might also be considered. As mentioned before, p/n diode fabrication requires low n doping level (1.5 9 10 15 cm 3 in the case of Fig.…”

Section: Flux-dependent Currentmentioning

confidence: 99%

Study of LWIR and VLWIR Focal Plane Array Developments: Comparison Between p-on-n and Different n-on-p Technologies on LPE HgCdTe

Gravrand

Mollard

Largeron

et al. 2009

Journal of Elec Materi

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The very long infrared wavelength (>14 lm) is a very challenging range for the design of mercury cadmium telluride (HgCdTe) large focal plane arrays (FPAs). The need (mainly expressed by the space industry) for very long wave FPAs appears very difficult to fulfil. High homogeneity, low defect rate, high quantum efficiency, low dark current, and low excess noise are required. Indeed, for such wavelength, the corresponding HgCdTe gap becomes smaller than 100 meV and each step from the metallurgy to the technology becomes critical. This paper aims at presenting a status of long and very long wave FPAs developments at DEFIR (LETI-LIR/Sofradir joint venture). This study will focus on results obtained in our laboratory for three different ion implanted technologies: n-on-p mercury vacancies doped technology, n-on-p extrinsic doped technology, and p-on-n arsenic on indium technology. Special focus is given to 15 lm cutoff n/p FPA fabricated in our laboratory demonstrating high uniformity, diffusion and shot noise limited photodiodes at 50 K.

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Section: Flux-dependent Currentmentioning

confidence: 99%

Study of LWIR and VLWIR Focal Plane Array Developments: Comparison Between p-on-n and Different n-on-p Technologies on LPE HgCdTe

Gravrand

Mollard

Largeron

et al. 2009

Journal of Elec Materi

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“…Use of n-type MCT, which is virtually without SR centers, as an absorber for p-on-n detectors. Thus, the minority-carrier lifetime should be Auger 1 limited in a p-on-n detector in either mesa [4][5][6][7] concentration for n-on-p detectors in planar 10,11 or lateral collection 12 configuration, where minority-carrier lifetime should be limited by Auger 7 recombination.…”

Section: Introductionmentioning

confidence: 99%

Planar n-on-p HgCdTe FPAs for LWIR and VLWIR Applications

Wollrab

Bauer

Bitterlich

et al. 2011

Journal of Elec Materi

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Mainly driven by space applications, mercury cadmium telluride (MCT) focal-plane arrays (FPAs) have been successfully developed for very long wavelengths (k CO > 14 lm at 55 K). For this purpose, the standard n-on-p technology based on MCT grown by liquid-phase epitaxy (LPE) and involving vacancy doping has been modified to extrinsic doping by a monovalent acceptor. Due to the planar diode geometry obtained by ion implantation, most of the carrier generation volume is located in the p-type region with a thickness of approximately 8 lm. According to our understanding, the Shockley-Read centers connected with the Hg vacancies are thus significantly reduced. This situation should lead to longer minority-carrier lifetimes and smaller generation rates under equilibrium conditions, therefore yielding lower dark current. We indeed observe a reduction by a factor of approximately 15 by using extrinsic doping. Recent dark current data obtained in the temperature range from 55 K to 85 K on 288 9 384 FPAs with k CO (60 K) = 12 lm, either intrinsically or extrinsically doped, corroborate this finding. These data, new results on a 112 9 112 pixel demonstrator array with k CO (55 K) = 14.4 lm, and earlier measurements are compared with Tennant's Rule 07 established for p-on-n technology.

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Optical and Electrical Studies of the Double Acceptor Levels of the Mercury Vacancies in HgCdTe

Gemain

Robin

Brochen

et al. 2012

Journal of Elec Materi

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HgCdTe p-on-n Focal-Plane Array Fabrication Using Arsenic Incorporation During MBE Growth

Cited by 7 publications

References 10 publications

Study of LWIR and VLWIR Focal Plane Array Developments: Comparison Between p-on-n and Different n-on-p Technologies on LPE HgCdTe

Study of LWIR and VLWIR Focal Plane Array Developments: Comparison Between p-on-n and Different n-on-p Technologies on LPE HgCdTe

Planar n-on-p HgCdTe FPAs for LWIR and VLWIR Applications

Optical and Electrical Studies of the Double Acceptor Levels of the Mercury Vacancies in HgCdTe

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