The structural and electronic properties of amorphous HgCdTe from first-principles calculations
Abstract
Amorphous mercury cadmium telluride (a-MCT) model structures, with x being 0.125 and 0.25, are obtained from first-principles calculations. We generate initial structures by computation alchemy method. It is found that most atoms in the network of amorphous structures tend to be fourfold and form tetrahedral structures, implying that the chemical ordered continuous random network with some coordination defects is the ideal structure for a-MCT. The electronic structure is also concerned. The gap is found to be 0.30 and 0.26 eV for a-Hg0.875Cd0.125Te and a-Hg0.75Cd0.25Te model structures, independent of the composition. By comparing with the properties of crystalline MCT with the same composition, we observe a blue-shift of energy band gap. The localization of tail states and its atomic origin are also discussed.
- Publication:
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Journal of Physics D Applied Physics
- Pub Date:
- January 2014
- DOI:
- 10.1088/0022-3727/47/2/025304
- Bibcode:
- 2014JPhD...47b5304Z