Tesis
Magnetorresistência túnel ressonante e acoplamento magnético em heteroestruturas epitaxiais.
Date
2004-10-29Registration in:
VARALDA, José. Magnetorresistência túnel ressonante e acoplamento magnético em heteroestruturas epitaxiais.. 2004. 154 f. Tese (Doutorado em Ciências Exatas e da Terra) - Universidade Federal de São Carlos, São Carlos, 2004.
Author
Varalda, José
Institutions
Abstract
In the context of spin electronics, this doctorate thesis presents an
experimental study of spin polarized transport in epitaxial heterostructures as planar
magnetic tunnel junctions formed by semiconductors and metallic ferromagnets.
It was demonstrated that the epitaxial Fe/ZnSe/Fe structures fabricated by
molecular beam epitaxy have the microscopic and macroscopic properties necessary for
application in magnetic tunnel junctions. The experimental observation of
antiferromagnetic coupling in these structures indicates strongly that samples are free of
pinholes for barrier thickness down to 25 Å. Spin polarized transport studies using
microjunctions demonstrated that the conductance mechanism is the resonant tunneling
via defect states in the barrier, reinforcing the idea anticipated theoreticaly that the
transport depends on the magnetic tunnel junction structure as a whole. This result is
general since defect states near the Fermi energy are expected for semiconductor and
insulanting barriers, pointing out the importance of their roles in the understanding of
the spin polarized tunneling phenomena.
The study of growth properties associated with magnetic properties made
possible the use of MnAs films as current polarizer electrode in magnetic tunnel
junctions. Experiments exploiting magnetic phase transition were also realized for these
MnAs films. Our first results of spin polarized transport in a Fe/ZnSe/MnAs presented a
tunnel magnetoresistance variation of 10 %, indicating that MnAs can transmit spin
polarized electrons across a ZnSe barrier.