Dielectric constant of gray Tin: A first-principles study
Abstract
α-Sn (gray tin) is a group-IV, zero-gap semiconductor with potential use in infrared detectors, necessitating a clear understanding of its dielectric properties. We report the first-principles calculations of the band structure and dielectric function of α-Sn using density functional theory, emphasizing the effects of strain, spin-orbit interaction, and pseudo-potentials on the electronic and optical properties of α-Sn in the infrared region (photon energy < 1eV). In α-Sn, spin-orbit coupling greatly influences the electronic band structure that leads to unusual optical behavior. We explain an apparently anomalous absorption at 0.41 eV caused by interbank transitions within the valence band. Infrared spectroscopic ellipsometry on several α-Sn films grown by molecular beam epitaxy validate our band-structure calculations. Our computational methods and results are discussed in detail.
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