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The unique combination of (a) highly brilliant x-rays produced in a modern third generation synchrotron source, (b) the availability of a fast, single-photon counting area pixel detector and (c) a pulsed laser deposition equipment for in-situ growth enables one to study both the structure and kinetics of the thin film growth of perovskites. The surface structure of titanium-dioxide-terminated strontium titanate (STO) was analyzed by surface x-ray diffraction (SXRD) for two different environments: One (cold) at room temperature and in ultra-high vacuum, and the other (hot) at elevated temperatures and in an oxygen background, i.e., under conditions typical for perovskite thin film growth. SXRD was used to determine the atomic structures of lanthanum strontium manganate thin films, grown monolayer-by-monolayer on STO by pulsed laser deposition. Structures were solved using the COBRA phase-retrieval method and subsequent structural refinement. These results allowed concluding on the onset of colossal magnetoresistance. In-situ kinetic studies of the thin film growth led to the proposition of a novel energetic smoothing mechanism for the growth of complex metal-oxide thin films.
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The unique combination of (a) highly brilliant x-rays produced in a modern third generation synchrotron source, (b) the availability of a fast, single-photon counting area pixel detector and (c) a pulsed laser deposition equipment for in-situ growth enables one to study both the structure and kinetics of the thin film growth of perovskites. The surface structure of titanium-dioxideterminated strontium titanate (STO) was analyzed by surface x-ray diffraction (SXRD) for two different environments: One (cold) at room temperature and in ultra-high vacuum, and the other (hot) at elevated temperatures and in an oxygen background, i.e., under conditions typical for perovskite thin film growth. SXRD was used to determine the atomic structures of lanthanum strontium manganate thin films, grown monolayer-by-monolayer on STO by pulsed laser deposition. Structures were solved using the COBRA phase-retrieval method and subsequent structural refinement. These results allowed concluding on the onset of colossal magnetoresistance. In-situ kinetic studies of the thin film growth led to the proposition of a novel energetic smoothing mechanism for the growth of complex metal-oxide thin films.
Biografía del autor
Dr. Roger Herger (*1977) studied Chemistry (MSc) and Physics (PhD) at the University of Zurich and at the Swiss Light Source, Paul Scherrer Institut, Villigen, Switzerland. He is author of 16 scientific publications, including high-profile articles. He was honored by the Alfred Werner Legat award of the University twice for exceptional performance.
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Perovskite Thin Films
ISBN 10: 3838104463
ISBN 13: 9783838104461
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Taschenbuch. Zustand: Neu. Neuware -The unique combination of (a) highly brilliant x-rays produced in a modern third generation synchrotron source, (b) the availability of a fast, single-photon counting area pixel detector and (c) a pulsed laser deposition equipment for in-situ growth enables one to study both the structure and kinetics of the thin film growth of perovskites. The surface structure of titanium-dioxide-terminated strontium titanate (STO) was analyzed by surface x-ray diffraction (SXRD) for two different environments: One (cold) at room temperature and in ultra-high vacuum, and the other (hot) at elevated temperatures and in an oxygen background, i.e., under conditions typical for perovskite thin film growth. SXRD was used to determine the atomic structures of lanthanum strontium manganate thin films, grown monolayer-by-monolayer on STO by pulsed laser deposition. Structures were solved using the COBRA phase-retrieval method and subsequent structural refinement. These results allowed concluding on the onset of colossal magnetoresistance. In-situ kinetic studies of the thin film growth led to the proposition of a novel energetic smoothing mechanism for the growth of complex metal-oxide thin films.Books on Demand GmbH, Überseering 33, 22297 Hamburg 132 pp. Deutsch. Artikel-Nr. 9783838104461
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Perovskite Thin Films | Surface Structure, Interface Structure, and Film Growth
Verlag:
Südwestdeutscher Verlag für Hochschulschriften AG Co. KG, 2015
ISBN 10: 3838104463
ISBN 13: 9783838104461
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Taschenbuch. Zustand: Neu. Perovskite Thin Films | Surface Structure, Interface Structure, and Film Growth | Roger Herger | Taschenbuch | 132 S. | Deutsch | 2015 | Südwestdeutscher Verlag für Hochschulschriften AG Co. KG | EAN 9783838104461 | Verantwortliche Person für die EU: OmniScriptum GmbH & Co. KG, Bahnhofstr. 28, 66111 Saarbrücken, info[at]akademikerverlag[dot]de | Anbieter: preigu. Artikel-Nr. 101546978
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Perovskite Thin Films: Surface Structure, Interface Structure, and Film Growth
Verlag:
Suedwestdeutscher Verlag fuer Hochschulschriften, 2009
ISBN 10: 3838104463
ISBN 13: 9783838104461
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