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Preparation of nanometer-scale iron dots on insulating layer

โœ Scribed by F. Ernult; S. Mitani; Y. Nagano; K. Takanashi

Book ID
104438353
Publisher
Institute of Physics and National Institute of Materials Science
Year
2003
Tongue
English
Weight
311 KB
Volume
4
Category
Article
ISSN
1468-6996

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โœฆ Synopsis

We studied the preparation of nanometer-sized magnetic dots on MgO tunnel barriers. The samples were formed by depositing Fe thin layers, which exhibited a 3D Volmer -Weber growth on MgO (001) substrates. The current -voltage characteristics were then measured using a scanning tunneling microscope. By comparing different preparation techniques such as the oxidation of a metallic Mg layer and direct deposition of MgO by electron beam evaporation, we found that direct deposition was the best way to achieve flat MgO surfaces and assemblies of dots with uniform heights. The growth of the Fe dots seems to be mainly governed by the density of surface defects of the buffer, which act as nucleation sites. The density of these defects appears to be modified by the insertion of an iron electrode prior to the deposition of the MgO layer.

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## Communications Monodisperse magnetic iron oxide nanoparticles with a continuous size spectrum of 6-13 nm were produced by controlled growth on previously synthetisized monodisperse nanoparticle seeds. The detailed synthetic procedure and characterization is described in the communication by T. H