Aluminum doped 6H-SiC epitaxial layers (p-type net doping: NA−ND=5.2×1015 cm−3, thickness 3 μm) on a p+ doped 6H-SiC substrate (NA−ND=1018 cm−3) were irradiated with neutrons in a nuclear reactor. The neutron fluences applied were 9.4×1019, 3.5×1020, and 6.4×1020 cm−2. The phosphorus impurity in SiC is produced by a nuclear (n,γ) reaction with the decay of Si31 to P31. The irradiated samples were subsequently annealed at temperatures between 800 and 1850 °C. The annealing behavior was studied by low temperature photoluminescence, Fourier transform infrared spectroscopy, and Hall effect and I–V and C–V measurements. After the annealing process the 6H-SiC p-type epilayer changed to n type resulting in a pn junction within the material. The properties of the pn junction were characterized.
For evaluation of the possibilities and potentials of multispectral infrared imaging a filter wheel camera system was developed. The camera is designed for high speed operation permitting acquisition of subsequent MWIR spectral images in short time. Potential applications of a multispectral camera are temperature measurement, gas and fire visualisation. Some experiments were performed to validate the applicability of the camera system.
This article presents strategies, implementations and applications of handling infrared FPA data streams at high data rates on most recent standard PCs. Those data streams require maximum data throughput of modern PCs. Real-time non-uniformity correction (gain and offset correction) of those high speed infrared FPA data streams will be discussed. The performance of PC based systems for Real-Time data Acquisition and data Hard Disk Storage (RT-AHDS) will be described in more detail. Some of the Thermosensorik systems for use in research and development, as well as in in-line testing systems in industry for various applications will be presented. This paper describes some of the demanding tasks for the PC based concept, as well as some major advantages.
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