Photoemission study of adsorbed Xe on GaAs(110), HgTe(110), and Hg1-xCdxTe(110) surfaces

Greg D Haugstad; A. Raisanen; X. Yu; L. Vanzetti; A. Franciosi

doi:10.1103/PhysRevB.46.4102

Photoemission study of adsorbed Xe on GaAs(110), HgTe(110), and Hg1-xCdxTe(110) surfaces

Greg D Haugstad, A. Raisanen, X. Yu, L. Vanzetti, A. Franciosi

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Abstract

Synchrotron-radiation photoemission studies of Xe-atom physisorption at 35 K on cleaved GaAs(110) surfaces reveal the presence of a single first-layer adsorption site, followed at increasing coverage by the formation of a close-packed Xe second layer incommensurate with the substrate. Sizable binding-energy shifts of the Xe 4d and 5p levels from first to second adsorbed layer suggest non-negligible final-state screening of the photoemission-induced core hole by the GaAs substrate. Results for Xe atoms adsorbed on HgTe(110) and Hg1-xCdxTe(110) cleaved semiconductor surfaces show a similar initial adsorption site on all such surfaces, corresponding to an identical Xe 4d ionization energy of 66.3±0.1 eV. We associate this common behavior to initial Xe adsorption at the high-coordination, fourfold-hollow site formed by anions on the (110) cleavage plane.

Original language	English (US)
Pages (from-to)	4102-4109
Number of pages	8
Journal	Physical Review B
Volume	46
Issue number	7
DOIs	https://doi.org/10.1103/PhysRevB.46.4102
State	Published - 1992

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title = "Photoemission study of adsorbed Xe on GaAs(110), HgTe(110), and Hg1-xCdxTe(110) surfaces",

abstract = "Synchrotron-radiation photoemission studies of Xe-atom physisorption at 35 K on cleaved GaAs(110) surfaces reveal the presence of a single first-layer adsorption site, followed at increasing coverage by the formation of a close-packed Xe second layer incommensurate with the substrate. Sizable binding-energy shifts of the Xe 4d and 5p levels from first to second adsorbed layer suggest non-negligible final-state screening of the photoemission-induced core hole by the GaAs substrate. Results for Xe atoms adsorbed on HgTe(110) and Hg1-xCdxTe(110) cleaved semiconductor surfaces show a similar initial adsorption site on all such surfaces, corresponding to an identical Xe 4d ionization energy of 66.3±0.1 eV. We associate this common behavior to initial Xe adsorption at the high-coordination, fourfold-hollow site formed by anions on the (110) cleavage plane.",

author = "Haugstad, {Greg D} and A. Raisanen and X. Yu and L. Vanzetti and A. Franciosi",

year = "1992",

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T1 - Photoemission study of adsorbed Xe on GaAs(110), HgTe(110), and Hg1-xCdxTe(110) surfaces

AU - Haugstad, Greg D

AU - Raisanen, A.

AU - Yu, X.

AU - Vanzetti, L.

AU - Franciosi, A.

PY - 1992

Y1 - 1992

N2 - Synchrotron-radiation photoemission studies of Xe-atom physisorption at 35 K on cleaved GaAs(110) surfaces reveal the presence of a single first-layer adsorption site, followed at increasing coverage by the formation of a close-packed Xe second layer incommensurate with the substrate. Sizable binding-energy shifts of the Xe 4d and 5p levels from first to second adsorbed layer suggest non-negligible final-state screening of the photoemission-induced core hole by the GaAs substrate. Results for Xe atoms adsorbed on HgTe(110) and Hg1-xCdxTe(110) cleaved semiconductor surfaces show a similar initial adsorption site on all such surfaces, corresponding to an identical Xe 4d ionization energy of 66.3±0.1 eV. We associate this common behavior to initial Xe adsorption at the high-coordination, fourfold-hollow site formed by anions on the (110) cleavage plane.

AB - Synchrotron-radiation photoemission studies of Xe-atom physisorption at 35 K on cleaved GaAs(110) surfaces reveal the presence of a single first-layer adsorption site, followed at increasing coverage by the formation of a close-packed Xe second layer incommensurate with the substrate. Sizable binding-energy shifts of the Xe 4d and 5p levels from first to second adsorbed layer suggest non-negligible final-state screening of the photoemission-induced core hole by the GaAs substrate. Results for Xe atoms adsorbed on HgTe(110) and Hg1-xCdxTe(110) cleaved semiconductor surfaces show a similar initial adsorption site on all such surfaces, corresponding to an identical Xe 4d ionization energy of 66.3±0.1 eV. We associate this common behavior to initial Xe adsorption at the high-coordination, fourfold-hollow site formed by anions on the (110) cleavage plane.

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Photoemission study of adsorbed Xe on GaAs(110), HgTe(110), and Hg1-xCdxTe(110) surfaces

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