Electronic structure due to hydrogen and vanadium as substitutional impurities in InP

Electronic structure due to hydrogen and vanadium as substitutional impurities in InP

The self-consistent local-density theory is used in a cluster model to calculate the charge distribution, one-electron energy spectra, and the density of states for pure InP and for H and V substituted at the In site. The pure semiconductor gap is found to be 0.8 eV, consistent with experiments. The...

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Veröffentlicht in:Phys. Rev. B: Condens. Matter; (United States) 1988-02, Vol.37 (6), p.2973-2978
Hauptverfasser: Khowash, PK, Ellis, DE
Format: Artikel
Sprache:eng
Schlagworte:
360204 - Ceramics, Cermets, & Refractories- Physical Properties
CHARGE DISTRIBUTION
DEEP LEVEL TRANSIENT SPECTROSCOPY
DENSITY
ELECTRONIC STRUCTURE
ELEMENTS
ENERGY GAP
ENERGY SPECTRA
ENERGY-LEVEL DENSITY
FUNCTIONALS
FUNCTIONS
HYDROGEN
IMPURITIES
INDIUM COMPOUNDS
INDIUM PHOSPHIDES
MATERIALS SCIENCE
METALS
NONMETALS
PHOSPHIDES
PHOSPHORUS COMPOUNDS
PHYSICAL PROPERTIES
PNICTIDES
SELF-CONSISTENT FIELD
SOLID CLUSTERS
SPECTRA
SPECTROSCOPY
TRANSITION ELEMENTS
TRAPPING
ULTRALOW TEMPERATURE
VANADIUM
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Zusammenfassung:The self-consistent local-density theory is used in a cluster model to calculate the charge distribution, one-electron energy spectra, and the density of states for pure InP and for H and V substituted at the In site. The pure semiconductor gap is found to be 0.8 eV, consistent with experiments. The hydrogen impurity introduces a trapping center at E/sub v/+0.37 eV in the gap region: a semi-insulating-like behavior. The transition metals are generally found to introduce deep levels in the gap region, but for vanadium we find the gap swept clean of any impurity level, with the last partially occupied state close to the bottom of the conduction band. This is consistent with deep-level transient spectroscopy experiments where no vanadium-related deep levels in the band gap are found down to 4 K.
ISSN:0163-1829
DOI:10.1103/PhysRevB.37.2973