Studies of Nanoconstrictions, Nanowires and Fe3O4 Thin Films

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Electrical Conduction and Magnetic Properties.Fabrication by Focused Electron/Ion Beam, Springer Theses

ISBN: 3642266967
ISBN 13: 9783642266966
Autor: Fernandez-Pacheco, Amalio
Verlag: Springer Verlag GmbH
Umfang: xvi, 188 S., 103 s/w Illustr., 20 farbige Illustr.
Erscheinungsdatum: 27.02.2013
Auflage: 1/2013
Produktform: Kartoniert
Einband: KT

This work constitutes a detailed study of electrical and magnetic properties in nanometric materials with a range of scales: atomic-sized nanoconstrictions, micro- and nanowires and thin films. Firstly, a novel method of fabricating atomic-sized constrictions in metals is presented; it relies on measuring the conduction of the device while a focused-ion-beam etching process is in progress. Secondly, it describes wires created by a very promising nanolithography technique: Focused electron/ion-beam-induced deposition. Three different gas precursors were used: (CH3)3Pt(CpCH3), W(CO)6 and Co2(CO)8. The thesis reports the results obtained for various physical phenomena: the metal-insulator transition, superconducting and magnetic properties, respectively. Finally, the detailed magnetotransport properties in epitaxial Fe3O4 thin films grown on MgO (001) are presented. Overall, the new approaches developed in this thesis have great potential for supporting novel technologies.

Artikelnummer: 4428263 Kategorie:

Beschreibung

This work constitutes a detailed study of electrical and magnetic properties in nanometric materials with a range of scales: atomic-sized nanoconstrictions, micro- and nanowires and thin films. Firstly, a novel method of fabricating atomic-sized constrictions in metals is presented; it relies on measuring the conduction of the device while a focused-ion-beam etching process is in progress.

Autorenporträt

InhaltsangabeIntroduction.- Experimental Techniques.- Conduction in in Atomic-Sized Magnetic Metallic Constructions created by FIB.- Pt-C Nanowires created by FIBID and FEBID.- Superconductor W-Based Nanowires created by FIBID.- Magnetic Cobalt Nanowires created by FEBID.- Conclusions and Outlook.- CV.-

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