Thermal properties of mid-infrared colloidal quantum dot detectors
Résumé
HgTe colloidal quantum dot films are studied for photodetection over the 3–5 lm atmospheric
transparency window. The temperature dependence of the conductivity indicates that the material
behaves approximately as an intrinsic semiconductor. In photoconduction, the responsivity can be
as high as several hundred mA W1 at room temperature. The dark current presents 1/f noise which
is larger than that for homogeneous conductors, and this noise decreases with temperature.
A specific detectivity of 2109 Jones is obtained for a sample with a 6 lm cut-off wavelength at
130 K. These values are obtained for the thickest films studied (400 nm) and whose thicknesses
are still much less than the optical absorption length. The time response can be faster than 100 ns.
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