In order to determine the local structure of Mn in delta-doped GaAs layers we have carried out an x-ray absorption spectroscopy experiment at the Mn-K edge in samples grown by molecular beam epitaxy with and without Be co-doping. Mn-Mn atomic correlations have not been found within 5 Å radius, ruling out the presence of metallic clusters or local Mn enrichment. In samples deposited at 300 °C, Mn substitutionally occupies the Ga site with a local expansion 2% of the first-neighbor distance with respect to GaAs; the second neighbors remain at a distance very close to that of the host lattice, indicating that the structural perturbation induced by Mn is very localized. Ab initio simulation of the x-ray absorption near edge structure spectra confirmed that Mn enters the Ga, rather than the As, site. Samples grown at 450 °C exhibit a reduction of the first shell coordination number, suggesting the initial phases of MnAs precipitation. In the case of Be co-doping the downward shift of the Fermi energy leads to the appearance of Mn in tetrahedral interstitial sites, of which we provide a previously unavailable local structural description.

F. d’Acapito, G. Smolentsev, F. Boscherini, M. Piccin, G. Bais, S. Rubini, et al. (2006). Site of Mn in Mn delta-doped GaAs: X-ray absorption spectroscopy. PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS, 73, 035314-1-035314-6 [10.1103/PhysRevB.73.035314].

Site of Mn in Mn delta-doped GaAs: X-ray absorption spectroscopy

BOSCHERINI, FEDERICO;
2006

Abstract

In order to determine the local structure of Mn in delta-doped GaAs layers we have carried out an x-ray absorption spectroscopy experiment at the Mn-K edge in samples grown by molecular beam epitaxy with and without Be co-doping. Mn-Mn atomic correlations have not been found within 5 Å radius, ruling out the presence of metallic clusters or local Mn enrichment. In samples deposited at 300 °C, Mn substitutionally occupies the Ga site with a local expansion 2% of the first-neighbor distance with respect to GaAs; the second neighbors remain at a distance very close to that of the host lattice, indicating that the structural perturbation induced by Mn is very localized. Ab initio simulation of the x-ray absorption near edge structure spectra confirmed that Mn enters the Ga, rather than the As, site. Samples grown at 450 °C exhibit a reduction of the first shell coordination number, suggesting the initial phases of MnAs precipitation. In the case of Be co-doping the downward shift of the Fermi energy leads to the appearance of Mn in tetrahedral interstitial sites, of which we provide a previously unavailable local structural description.
2006
F. d’Acapito, G. Smolentsev, F. Boscherini, M. Piccin, G. Bais, S. Rubini, et al. (2006). Site of Mn in Mn delta-doped GaAs: X-ray absorption spectroscopy. PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS, 73, 035314-1-035314-6 [10.1103/PhysRevB.73.035314].
F. d’Acapito; G. Smolentsev; F. Boscherini; M. Piccin; G. Bais; S. Rubini; F. Martelli; A. Franciosi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/23994
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