1,345 research outputs found
Magnons versus electrons in thermal spin transport through metallic interfaces
We develop a theory for spin transport in magnetic metals that treats the
contribution of magnons and electrons on equal footing. As an application we
consider thermally-driven spin injection across an interface between a magnetic
metal and a normal metal, i.e., the spin-dependent Seebeck effect. We show that
the ratio between magnonic and electronic contribution scales as
, with the Fermi temperature and the Curie
temperature . Since, typically, , the magnonic contribution
may dominate the thermal spin injection, even though the interface is more
transparent for electronic spin current.Comment: Contribution to the Special issue on Spincaloritronics in Journal of
Physics D: Applied Physic
Continuous-feed nanocasting process for the synthesis of bismuth nanowire composites
We present a novel, continuous-feed nanocasting procedure for the synthesis
of bismuth nanowire structures embedded in the pores of a mesoporous silica
template. The immobilization of a bismuth salt inside the silica template from
a diluted metal salt solution yields a sufficiently high loading to obtain
electrically conducting bulk nanowire composite samples after reduction and
sintering the nanocomposite powders. Electrical resistivity measurements of
sintered bismuth nanowires embedded in the silica template reveal
size-quantization effects
Effects of hole self-trapping by polarons on transport and negative bias illumination stress in amorphous-IGZO
The effects of hole injection in amorphous-IGZO is analyzed by means of
first-principles calculations. The injection of holes in the valence band tail
states leads to their capture as a polaron, with high self-trapping energies
(from 0.44 to 1.15 eV). Once formed, they mediate the formation of peroxides
and remain localized close to the hole injection source due to the presence of
a large diffusion energy barrier (of at least 0.6eV). Their diffusion mechanism
can be mediated by the presence of hydrogen. The capture of these holes is
correlated with the low off-current observed for a-IGZO transistors, as well
as, with the difficulty to obtain a p-type conductivity. The results further
support the formation of peroxides as being the root cause of Negative bias
illumination stress (NBIS). The strong self-trapping substantially reduces the
injection of holes from the contact and limits the creation of peroxides from a
direct hole injection. In presence of light, the concentration of holes
substantially rises and mediates the creation of peroxides, responsible for
NBIS.Comment: 8 pages, 8 figures, to be published in Journal of Applied Physic
Phonon driven spin distribution due to the spin-Seebeck effect
Here we report on measurements of the spin-Seebeck effect of GaMnAs over an
extended temperature range alongside the thermal conductivity, specific heat,
magnetization, and thermoelectric power. The amplitude of the spin-Seebeck
effect in GaMnAs scales with the thermal conductivity of the GaAs substrate and
the phonon-drag contribution to the thermoelectric power of the GaMnAs,
demonstrating that phonons drive the spin redistribution. A phenomenological
model involving phonon-magnon drag explains the spatial and temperature
dependence of the measured spin distribution.Comment: 12 pages, 3 figure
Charge Transport Properties of a Metal-free Phthalocyanine Discotic Liquid Crystal
Discotic liquid crystals can self-align to form one-dimensional
semiconducting wires, many tens of microns long. In this letter, we describe
the preparation of semiconducting films where the stacking direction of the
disc-like molecules is perpendicular to the substrate surface. We present
measurements of the charge carrier mobility, applying temperature-dependent
time-of-flight transient photoconductivity, space-charge limited current
measurements, and field-effect mobility measurements. We provide experimental
verification of the highly anisotropic nature of semiconducting films of
discotic liquid crystals, with charge carrier mobilities of up to
2.8x10cm/Vs. These properties make discotics an interesting choice
for applications such as organic photovoltaics.Comment: 5 pages, 5 figure
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