Magnetite Fe3-δO4: A stoichiometry and structure analysis of MBE grown thin films using NO2 as the oxidising source

F. C. Voogt; T. Hibma; P. J.M. Smulders; L. Niesen; T. Fujii; P. A.A. Van Der Heijden; R. J.M. Van De Veerdonk; P. J. Van Der Zaag

Magnetite Fe_3-δO₄: A stoichiometry and structure analysis of MBE grown thin films using NO₂ as the oxidising source

F. C. Voogt, T. Hibma, P. J.M. Smulders, L. Niesen, T. Fujii, P. A.A. Van Der Heijden, R. J.M. Van De Veerdonk, P. J. Van Der Zaag

研究成果 › 査読

抄録

Epitaxial single crystalline films of iron oxides have been grown on MgO(100) substrates by means of MBE. Natural Fe or ⁵⁷Fe was evaporated from alumina crucibles, and oxidised simultaneously with a dosed flux of NO₂. The resulting oxide layers have been characterised in situ with RHEED, LEED, XPS, and AES. RHEED intensity oscillations, observed during deposition of the oxides, indicate a layer-by-layer growth for all substrate temperatures between 373 and 673 K. A stoichiometry analysis with CEMS, performed ex situ, shows that it is straightforward to prepare both the stable magnetite Fe₃O₄ and the metastable maghemite γ-Fe₂O₃ phases. Moreover, also all solid solutions in between these two extreme phases, i.e. Fe_3-δO₄ with 0<δ<1/3, could be formed. Ion beam channelling has been used to examine the epitaxy of the films. It was found that the films grow coherent on MgO(100).

本文言語	English
ページ（範囲）	C1-601-C1-602
ジャーナル	Journal De Physique. IV : JP
巻	7
号	1
出版ステータス	Published - 3月 1 1997

ASJC Scopus subject areas

物理学および天文学（全般）

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title = "Magnetite Fe3-δO4: A stoichiometry and structure analysis of MBE grown thin films using NO2 as the oxidising source",

abstract = "Epitaxial single crystalline films of iron oxides have been grown on MgO(100) substrates by means of MBE. Natural Fe or 57Fe was evaporated from alumina crucibles, and oxidised simultaneously with a dosed flux of NO2. The resulting oxide layers have been characterised in situ with RHEED, LEED, XPS, and AES. RHEED intensity oscillations, observed during deposition of the oxides, indicate a layer-by-layer growth for all substrate temperatures between 373 and 673 K. A stoichiometry analysis with CEMS, performed ex situ, shows that it is straightforward to prepare both the stable magnetite Fe3O4 and the metastable maghemite γ-Fe2O3 phases. Moreover, also all solid solutions in between these two extreme phases, i.e. Fe3-δO4 with 0<δ<1/3, could be formed. Ion beam channelling has been used to examine the epitaxy of the films. It was found that the films grow coherent on MgO(100).",

author = "Voogt, {F. C.} and T. Hibma and Smulders, {P. J.M.} and L. Niesen and T. Fujii and {Van Der Heijden}, {P. A.A.} and {Van De Veerdonk}, {R. J.M.} and {Van Der Zaag}, {P. J.}",

year = "1997",

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language = "English",

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T2 - A stoichiometry and structure analysis of MBE grown thin films using NO2 as the oxidising source

AU - Voogt, F. C.

AU - Hibma, T.

AU - Smulders, P. J.M.

AU - Niesen, L.

AU - Fujii, T.

AU - Van Der Heijden, P. A.A.

AU - Van De Veerdonk, R. J.M.

AU - Van Der Zaag, P. J.

PY - 1997/3/1

Y1 - 1997/3/1

N2 - Epitaxial single crystalline films of iron oxides have been grown on MgO(100) substrates by means of MBE. Natural Fe or 57Fe was evaporated from alumina crucibles, and oxidised simultaneously with a dosed flux of NO2. The resulting oxide layers have been characterised in situ with RHEED, LEED, XPS, and AES. RHEED intensity oscillations, observed during deposition of the oxides, indicate a layer-by-layer growth for all substrate temperatures between 373 and 673 K. A stoichiometry analysis with CEMS, performed ex situ, shows that it is straightforward to prepare both the stable magnetite Fe3O4 and the metastable maghemite γ-Fe2O3 phases. Moreover, also all solid solutions in between these two extreme phases, i.e. Fe3-δO4 with 0<δ<1/3, could be formed. Ion beam channelling has been used to examine the epitaxy of the films. It was found that the films grow coherent on MgO(100).

AB - Epitaxial single crystalline films of iron oxides have been grown on MgO(100) substrates by means of MBE. Natural Fe or 57Fe was evaporated from alumina crucibles, and oxidised simultaneously with a dosed flux of NO2. The resulting oxide layers have been characterised in situ with RHEED, LEED, XPS, and AES. RHEED intensity oscillations, observed during deposition of the oxides, indicate a layer-by-layer growth for all substrate temperatures between 373 and 673 K. A stoichiometry analysis with CEMS, performed ex situ, shows that it is straightforward to prepare both the stable magnetite Fe3O4 and the metastable maghemite γ-Fe2O3 phases. Moreover, also all solid solutions in between these two extreme phases, i.e. Fe3-δO4 with 0<δ<1/3, could be formed. Ion beam channelling has been used to examine the epitaxy of the films. It was found that the films grow coherent on MgO(100).

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Magnetite Fe3-δO4: A stoichiometry and structure analysis of MBE grown thin films using NO2 as the oxidising source

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ASJC Scopus subject areas

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Magnetite Fe_3-δO₄: A stoichiometry and structure analysis of MBE grown thin films using NO₂ as the oxidising source