139 research outputs found
Electrical spin injection in p-type Si using Fe/MgO contacts
We report the successful electrical creation of spin polarization in p-type
Si at room temperature by using an epitaxial MgO(001) tunnel barrier and
Fe(001) electrode. Reflection high-energy electron diffraction observations
revealed that epitaxial Fe/MgO(001) tunnel contacts can be grown on a (2 x 1)
reconstructed Si surface whereas tunnel contacts grown on the (1 x 1) Si
surface were polycrystalline. Transmission electron microscopy images showed a
more flat interface for the epitaxial Fe/MgO/Si compared to that of the
polycrystalline structure. For the Fe/MgO/p-Si devices, the Hanle and inverted
Hanle effects were clearly observed at 300 K by using a three-terminal
configuration, proving that spin polarization can be induced in the Si at room
temperature. Effective spin lifetimes deduced from the width of the Hanle curve
were 95 +/- 6 ps and 143 +/- 10 ps for the samples with polycrystalline and
epitaxial MgO tunnel contacts, respectively. The observed difference can be
qualitatively explained by the local magnetic field induced by the larger
roughness of the interface of the polycrystalline sample. The sample with
epitaxial Fe/MgO tunnel contact showed higher magnitude of the spin
accumulation with a nearly symmetric behavior with respect to the bias polarity
whereas that of the polycrystalline MgO sample exhibited a quite asymmetric
evolution. This might be attributed to the higher degree of spin polarization
of the epitaxial Fe/MgO(001) tunnel contact, which acts as a spin filter. Our
experimental results suggest that an epitaxial MgO barrier is beneficial for
creating spins in Si.Comment: Paper presented at SPIE Nanoscience + Engineering, Spintronics V
session in San Diego, US on August 13th, 201
Spin-Torque Diode Measurements of MgO-Based Magnetic Tunnel Junctions with Asymmetric Electrodes
We present a detailed study of the spin-torque diode effect in
CoFeB/MgO/CoFe/NiFe magnetic tunnel junctions. From the evolution of the
resonance frequency with magnetic field at different angles, we clearly
identify the free-layer mode and find an excellent agreement with simulations
by taking into account several terms for magnetic anisotropy. Moreover, we
demonstrate the large contribution of the out-of-plane torque in our junctions
with asymmetric electrodes compared to the in-plane torque. Consequently, we
provide a way to enhance the sensitivity of these devices for the detection of
microwave frequency
Interfacial Fe segregation and its influence on magnetic properties of CoFeB/MgFeO multilayers
We investigated the effect of Fe segregated from partially Fe-substituted MgO
(MgFeO) on the magnetic properties of CoFeB/MgFeO multilayers. X-ray
photoelectron spectroscopy (XPS) as well as magnetic measurements revealed that
the segregated Fe was reduced to metal and exhibited ferromagnetism at the
CoFeB/MgFeO interface. The CoFeB/MgFeO multilayer showed more than 2-fold
enhancement in perpendicular magnetic anisotropy (PMA) energy density compared
with a standard CoFeB/MgO multilayer. The PMA energy density was further
enhanced by inserting an ultrathin MgO layer in between CoFeB and MgFeO layers.
Ferromagnetic resonance measurement also revealed a remarkable reduction of
magnetic damping in the CoFeB/MgFeO multilayers.Comment: 15 pages, 5 figure
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