High resolution alpha particle detection using 4H–SiC epitaxial layers: Fabrication, characterization, and noise analysis
In this article we report the fabrication and
characterization of large area, room-temperature operable and very high
resolution Schottky barrier detectors for alpha particles using 20 μm
thick n-type 4H–SiC epitaxial layers. Schottky barriers were fabricated by
depositing circular nickel contacts of ~11 mm2 area on the 4H–SiC epitaxial layers.
Room temperature current–voltage measurements revealed very high Schottky
barrier height of 1.6 eV and extremely low leakage current of 3.5 pA
at an operating reverse bias of −90 V. We also report an energy resolution
of 0.29%, which is the best resolution obtained so far for uncollimated
5.48 MeV alpha particles in 4H–SiC epitaxial detectors with such a large
area. Very low micropipe density (<1 cm−2) and low
effective doping concentration (2.4×1014 cm−3) in the epilayer helped to achieve a high
resolution even with the large detector area and a broad source. A diffusion
length of ~18.6 μm for holes has been determined in these detectors
following a calculation based on a drift-diffusion model. A noise analysis in
terms of equivalent noise charge revealed that the white series noise due to the
detector capacitance has substantial effect on their spectroscopic performance.
Source:sciencedirect
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