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Design optimization of superlattice type II IR detection modules with temporal signal coincidence in two spectral ranges

Designoptimierung von Typ-II Übergitterdetektormodulen mit zeitgleicher Signalerfassung in zwei Spektralbereichen
: Breiter, R.; Lutz, H.; Scheibner, R.; Wendler, J.; Hofmann, K.; Ziegler, J.; Walther, M.; Rehm, R.


Andresen, B.F. ; Society of Photo-Optical Instrumentation Engineers -SPIE-, Bellingham/Wash.:
Infrared technology and applications XXXIV. Vol.1 : 17 - 20 March 2008, Orlando, Florida, USA; Thirty-Fourth Conference on Infrared Technology and Applications
Bellingham, WA: SPIE, 2008 (SPIE Proceedings Series 6940)
ISBN: 978-0-8194-7131-4
ISBN: 0-8194-7131-3
ISSN: 0277-786X
Paper 69400B
Conference on Infrared Technology and Applications <34, 2008, Orlando/Fla.>
Fraunhofer IAF ()
Infrarot-Detektormodule; infrared detector module; InAs/(GaIn)Sb superlattice; InAs/(GaIn)Sb Übergitter; Zweifarben-Detektor; dual color detector; dual band detector; Dual-Band-Detektor; Raketenwarnsensorik; missile warning sensor

3rd Generation IR detectors providing e.g. dual-color capability are of great benefit for applications like aircraft missile approach warning systems using this feature for achieving low false alarm rates by separating the hot CO2 missile plume from background and clutter. AIM and IAF selected antimonide based type II Superlattices (SL) for such kind of applications.
The type II SL technology provides and accurate engineering of sensitive layers by MBE with very good homogeneity and yield. IAF and AIM already managed to realize a dual-color 384x288 IR-Module based on this technology. It combines spectral selective detection in the 3-4 µm wavelength range and 4-5 µm wavelength range in each pixel with coincident integration in a 384x288x2 format and 40 µm pitch. Excellent thermal resolution with NETD < 17 mK @ F/2, 2.8 ms for the longer wavelength range (red color) and NETD < 30 mK @ F/2, 2.8 ms for the shorter wavelength range (blue color) were already reported. In order to increase further the quantum efficiency and subsequently decrease further the spectral crosstalk between the two colors the layer thickness of the SL-layer was optimized.
This paper is intended to present the current status and trends at AIM on antimonide type II Superlattices (SL) IR module developments for ground and airborne applications in the high performance range, where rapidly changing scenes - like e.g. in case of missile warning applications for airborne platforms - require temporal signal coincidence with integration times of typically 1 ms.