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Nanostructured high spin polarizator: high quality Co2FeY Heusler compounds nanowires grown by metallic-flux nanonucleation method

Grant number: 19/10706-4
Support type:Scholarships in Brazil - Post-Doctorate
Effective date (Start): September 01, 2019
Effective date (End): August 31, 2021
Field of knowledge:Physical Sciences and Mathematics - Physics - Condensed Matter Physics
Cooperation agreement: Fundação para a Ciência e a Tecnologia (FCT)
Principal researcher:Kleber Roberto Pirota
Grantee:Lucas Soares de Oliveira Paixão
Home Institution: Instituto de Física Gleb Wataghin (IFGW). Universidade Estadual de Campinas (UNICAMP). Campinas , SP, Brazil
Associated research grant:18/07856-1 - Dimensionality effects in the physical properties of Heusler and magnetostrictive intermetallic materials: from 1- to 3-D architectures, AP.R

Abstract

The main objectives of this project are the growth and study of a special class of Heusler nanowires (Co2FeY (Y = Al, Ga, Sn)), fabricated using the novel technique called metallic-flux nanonucleation (MFNN). Among the most interesting material from the magnetic point of view, the Heusler compounds present unique properties (spin current polarization for spintronics, shape memory effect, etc.) that involve several fundamental magnetic and structural phenomena whose critical length scale belongs to the nanometer scale. In particular, the ternary Co2FeY family exhibits half-metallicity, which yields to a high spin polarization possibility. However, high quality nanostructured half-metals are limited by the available fabrication techniques. In this context, the MFNN method will be used to produce a high density array of nanowires, parallel to each other, and where each nanowire is a monocrystal of the same texture than its neighbors. This technique combines the aluminum anodization from nanoporous alumina membrane and the metallic-flux method for intermetallic single crystal growth. A deep structural characterization, comparing the bulk and nanowires Heusler compounds, will be related to the half-metallicity character of both shape.This project represents a good opportunity to access new physics hidden at nanometer size that is interesting from both technological and fundamental point of views in the spintronics area.

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