Type II Superlattice Infrared Detector Technology at SCD

Type II Superlattice Infrared Detector Technology at SCD

Semi-Conductor Devices’ long-wave infrared 640 × 512/15- μ m pitch type II superlattice detector is based on an XB p design with an InAs/GaSb absorbing layer and an InAs/AlSb barrier layer. The barrier architecture ensures a low, diffusion-limited, dark current and allows stable passivation to all f...

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Veröffentlicht in:Journal of electronic materials 2018-10, Vol.47 (10), p.5725-5729
Hauptverfasser: Klipstein, P. C., Avnon, E., Benny, Y., Cohen, Y., Fraenkel, R., Gliksman, S., Glozman, A., Hojman, E., Klin, O., Krasovitsky, L., Langof, L., Lukomsky, I., Marderfeld, I., Yaron, N., Nitzani, M., Rappaport, N., Shtrichman, I., Snapi, N., Weiss, E.
Format: Artikel
Sprache:eng
Schlagworte:
Barrier layers
Carrier lifetime
Characterization and Evaluation of Materials
Chemistry and Materials Science
Conductors
Dark current
Diffusion barriers
Diffusion layers
Electronics and Microelectronics
Infrared detectors
Instrumentation
Materials Science
Minority carriers
Noise equivalent temperature difference
Optical and Electronic Materials
Quantum efficiency
Sensors
Solid State Physics
Superlattices
Temperature gradients
U.S. Workshop on Physics and Chemistry of II-VI Materials 2017
U.S. Workshop on the Physics and Chemistry of II-VI Materials 2017
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Zusammenfassung:Semi-Conductor Devices’ long-wave infrared 640 × 512/15- μ m pitch type II superlattice detector is based on an XB p design with an InAs/GaSb absorbing layer and an InAs/AlSb barrier layer. The barrier architecture ensures a low, diffusion-limited, dark current and allows stable passivation to all fabrication steps. It is shown that the dark current is about 10 times the Rule 07 value and corresponds to a minority carrier lifetime of about 10 ns, while the quantum efficiency can approach within 10% of the HgCdTe value for realistic detector parameters. Detectors are now being manufactured with a reasonable yield for an operability above 99.5%, and a stable and reproducible noise equivalent temperature difference of
ISSN:0361-5235
1543-186X
DOI:10.1007/s11664-018-6527-8