Abstract

Superlattice materials systems have recently been proposed to overcome the inherent problems of large tunnel and dark currents that limit the operation of infrared detectors at longer wavelengths (≥10 μm). We have utilized the envelope function approximation and a simple two-band Kane model to calculate the dependence of cutoff wavelength and effective mass on specific layer thicknesses for the HgTe-CdTe materials system. Infrared absorption coefficient calculations have been carried out on this system (with Eg =0.1 eV) and compared with both HgTe and 0.1-eV HgCdTe alloy. Infrared device performance for various proposed superlattice systems is predicted from a consideration of effective mass and absorption coefficient values. Superlattice systems involving materials with the inverted gray tin band structure are seen to offer the greatest potential for future infrared devices.

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