Penetration of electronic perturbations of dilute nitrogen impurities deep into the conduction band of GaP1-xNx [10]

S. V. Dudiy; P. R.C. Kent; Alex Zunger

doi:10.1103/PhysRevB.70.161304

Penetration of electronic perturbations of dilute nitrogen impurities deep into the conduction band of GaP_1-xN_x [10]

S. V. Dudiy, P. R.C. Kent, Alex Zunger

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

The electronic structure consequences of the perturbations caused by dilute nitrogen impurities in GaP are studied by means of supercell calculations using a fully atomistic empirical pseudopotential method. We find that numerous localized states are introduced by a single N atom and N clusters, not only close to the band edge but also throughout the GaP conduction band, up to ∼1 eV above the conduction band edge. These localized states suggest an alternative interpretation for a previously puzzling observation of splitting of photoluminescence excitation intensity at the GaP Γ_1c energy into two features, one blueshifting and the other staying pinned in energy with increasing N concentration.

Original language	English
Article number	161304
Pages (from-to)	1-4
Number of pages	4
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	70
Issue number	16
DOIs	https://doi.org/10.1103/PhysRevB.70.161304
State	Published - Oct 2004
Externally published	Yes

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10.1103/PhysRevB.70.161304

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abstract = "The electronic structure consequences of the perturbations caused by dilute nitrogen impurities in GaP are studied by means of supercell calculations using a fully atomistic empirical pseudopotential method. We find that numerous localized states are introduced by a single N atom and N clusters, not only close to the band edge but also throughout the GaP conduction band, up to ∼1 eV above the conduction band edge. These localized states suggest an alternative interpretation for a previously puzzling observation of splitting of photoluminescence excitation intensity at the GaP Γ1c energy into two features, one blueshifting and the other staying pinned in energy with increasing N concentration.",

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AU - Dudiy, S. V.

AU - Kent, P. R.C.

AU - Zunger, Alex

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Y1 - 2004/10

N2 - The electronic structure consequences of the perturbations caused by dilute nitrogen impurities in GaP are studied by means of supercell calculations using a fully atomistic empirical pseudopotential method. We find that numerous localized states are introduced by a single N atom and N clusters, not only close to the band edge but also throughout the GaP conduction band, up to ∼1 eV above the conduction band edge. These localized states suggest an alternative interpretation for a previously puzzling observation of splitting of photoluminescence excitation intensity at the GaP Γ1c energy into two features, one blueshifting and the other staying pinned in energy with increasing N concentration.

AB - The electronic structure consequences of the perturbations caused by dilute nitrogen impurities in GaP are studied by means of supercell calculations using a fully atomistic empirical pseudopotential method. We find that numerous localized states are introduced by a single N atom and N clusters, not only close to the band edge but also throughout the GaP conduction band, up to ∼1 eV above the conduction band edge. These localized states suggest an alternative interpretation for a previously puzzling observation of splitting of photoluminescence excitation intensity at the GaP Γ1c energy into two features, one blueshifting and the other staying pinned in energy with increasing N concentration.

UR - https://www.scopus.com/pages/publications/11244309669

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ER -

Penetration of electronic perturbations of dilute nitrogen impurities deep into the conduction band of GaP_1-xN_x [10]

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