2015
DOI: 10.1063/1.4905592
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Surface-interface exploration of Mg deposited on Si(100) and oxidation effect on interfacial layer

Abstract: International audienceUsing scanning tunneling microscopy and spectroscopy, Auger electron spectroscopy, and low energy electron diffraction, we have studied the growth of Mg deposited on Si(100)-(2 x 1). Coverage from 0.05 monolayer (ML) to 3 ML was investigated at room temperature. The growth mode of the magnesium is a two steps process. At very low coverage, there is formation of an amorphous ultrathin silicide layer with a band gap of 0.74 eV, followed by a layer-by-layer growth of Mg on top of this silici… Show more

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Cited by 7 publications
(13 citation statements)
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“…It has been stated as corresponding to Mg atoms in a Mg2Si binding environment [18] and reveals the formation of a Mg2Si silicide thin film with high chemical purity. Note that an accurate calibration of the Mg deposition was stated by AES and STM in a previous work, together with a Frank van der Merwe growth mode for Mg on Si(100) at RT [1]. One can firstly observe for each AES plot that the silicon Auger peak exhibits stronger intensity after silicide film formation, while it is slightly, partially or almost completely attenuated as a result of Mg deposition at RT in Figs.…”
Section: Methodsmentioning
confidence: 67%
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“…It has been stated as corresponding to Mg atoms in a Mg2Si binding environment [18] and reveals the formation of a Mg2Si silicide thin film with high chemical purity. Note that an accurate calibration of the Mg deposition was stated by AES and STM in a previous work, together with a Frank van der Merwe growth mode for Mg on Si(100) at RT [1]. One can firstly observe for each AES plot that the silicon Auger peak exhibits stronger intensity after silicide film formation, while it is slightly, partially or almost completely attenuated as a result of Mg deposition at RT in Figs.…”
Section: Methodsmentioning
confidence: 67%
“…magnesium silicide formation. As previously shown in the early stages of deposition at RT, magnesium reacts to form a selflimited ultra-thin layer of Mg2Si on Si(100) up to 0.25 Mg deposited ML [1]. Upon further deposition, this silicide behaves as a reaction barrier preventing the reactants from coming into contact, so that Mg metal starts growing on top of the interfacial silicide [19].…”
Section: Methodsmentioning
confidence: 76%
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