53 research outputs found
The Origin of Tunneling Anisotropic Magnetoresistance in Break Junctions
First-principles calculations of electron tunneling transport in Ni and Co
break junctions reveal strong dependence of the conductance on the
magnetization direction, an effect known as tunneling anisotropic
magnetoresistance (TAMR). The origin of this phenomenon stems from resonant
states localized in the electrodes near the junction break. The energy and
broadening of these states is strongly affected by the magnetization
orientation due to spin-orbit coupling, causing TAMR to be sensitive to bias
voltage on a scale of a few mV. Our results bear a resemblance to recent
experimental data and suggest that TAMR driven by resonant states is a general
phenomenon typical for magnetic broken contacts and other experimental
geometries where a magnetic tip is used to probe electron transport.Comment: 4 pages, 3 figure
Full Counting Statistics of Spin Currents
We discuss how to detect fluctuating spin currents and derive full counting
statistics of electron spin transfers. It is interesting to consider several
detectors in series that simultaneously monitor different components of the
spins transferred. We have found that in general the statistics of the
measurement outcomes cannot be explained with the projection postulate and
essentially depends on the quantum dynamics of the detectors.Comment: twocolumns, 4 pages, 2 figure
Suppression of Octahedral Tilts and Associated Changes of Electronic Properties at Epitaxial Oxide Heterostructure Interfaces
Epitaxial oxide interfaces with broken translational symmetry have emerged as
a central paradigm behind the novel behaviors of oxide superlattices. Here, we
use scanning transmission electron microscopy to demonstrate a direct,
quantitative unit-cell-by-unit-cell mapping of lattice parameters and oxygen
octahedral rotations across the BiFeO3-La0.7Sr0.3MnO3 interface to elucidate
how the change of crystal symmetry is accommodated. Combined with low-loss
electron energy loss spectroscopy imaging, we demonstrate a mesoscopic
antiferrodistortive phase transition and elucidate associated changes in
electronic properties in a thin layer directly adjacent to the interface
Nonmonotonic inelastic tunneling spectra due to surface spin excitations in ferromagnetic junctions
The paper addresses inelastic spin-flip tunneling accompanied by surface spin
excitations (magnons) in ferromagnetic junctions. The inelastic tunneling
current is proportional to the magnon density of states which is
energy-independent for the surface waves and, for this reason, cannot account
for the bias-voltage dependence of the observed inelastic tunneling spectra.
This paper shows that the bias-voltage dependence of the tunneling spectra can
arise from the tunneling matrix elements of the electron-magnon interaction.
These matrix elements are derived from the Coulomb exchange interaction using
the itinerant-electron model of magnon-assisted tunneling. The results for the
inelastic tunneling spectra, based on the nonequilibrium Green's function
calculations, are presented for both parallel and antiparallel magnetizations
in the ferromagnetic leads.Comment: 9 pages, 4 figures, version as publishe
Acute intermittent porphyria in adults: a clinical case
Background. Porphyria unites genetic pathologies related to abnormal haem (an intermediate product of haemoglobin metabolism) synthesis and its toxic products accumulation in human body. Symptoms can vary, from photosensitivity, skin rashes and chronic abdominal pain towards partial or complete paralysis and acute psychosis. This metabolic disorder is diagnosed with molecular genetic and laboratory biosample tests. Drug therapy aims at reducing toxic metabolites concentration in patient’s blood.Clinical Case Description. A 28-yo female patient had an acute atypical porphyria attack with a later onset of neurovisceral manifestations (acute abdominal pain, tachycardia) progressing post-drug-treatment into acute sensorimotor polyneuropathy with flaccid, predominantly proximal, hands-prevalent tetraparaesis. Biochemical urine tests at the National Research Center for Hematology (by 30.06.2020) revealed porphobilinogen 55.3 mg/L at norm <3. Vital indications required an urgent haem arginate pathogenetic therapy (Normosang) in a 4-day course of 3 mg/kg/day drop infusion. The recommended course was well tolerated. Drug therapy and rehabilitation entailed a positive dynamics of restoring limb muscle strength towards an almost easy getting-up from chair and bed, and skin lightening. The patient was discharged on day 20 with diagnosis: “Acute intermittent porphyria. Axonal-demyelinating sensorimotor polyneuropathy. Severe flaccid asymmetric predominantly proximal hands-prevalent tetraparaesis. Subacute course, stabilisation phase. Condition after one course of haem arginate pathogenetic therapy (Normosang) at 3 mg/kg/day”. A resident haematologist surveillance was recommended, with a routine referral for inpatient examination and treatment at the Department of Orphan Diseases of the National Research Center for Hematology, Ministry of Health of Russia.Conclusion. Porphyria is relatively rarely diagnosed, about 12 cases per 100,000 people. The symptoms variety and nonspecificity conduce to a low detection rate, and untimely diagnoses can entail severe clinical manifestations, including lethal outcomes
Ballistic anisotropic magnetoresistance
Electronic transport in ferromagnetic ballistic conductors is predicted to
exhibit ballistic anisotropic magnetoresistance (BAMR) - a change in the
ballistic conductance with the direction of magnetization. This phenomenon
originates from the effect of the spin-orbit interaction on the electronic band
structure which leads to a change in the number of bands crossing the Fermi
energy when the magnetization direction changes. We illustrate the significance
of this phenomenon by performing ab-initio calculations of the ballistic
conductance in ferromagnetic Ni and Fe nanowires which display a sizable BAMR
when the magnetization changes direction from parallel to perpendicular to the
wire axis
Impurity Scattering from -layers in Giant Magnetoresistance Systems
The properties of the archetypal Co/Cu giant magnetoresistance (GMR)
spin-valve structure have been modified by the insertion of very thin
(sub-monolayer) -layers of various elements at different points within
the Co layers, and at the Co/Cu interface. Different effects are observed
depending on the nature of the impurity, its position within the periodic
table, and its location within the spin-valve. The GMR can be strongly enhanced
or suppressed for various specific combinations of these parameters, giving
insight into the microscopic mechanisms giving rise to the GMR.Comment: 5 pages, 2 figure
Influence of s-d interfacial scattering on the magnetoresistance of magnetic tunnel junctions
We propose the two-band s-d model to describe theoretically a diffuse regime
of the spin-dependent electron transport in magnetic tunnel junctions (MTJ's)
of the form F/O/F where F's are 3d transition metal ferromagnetic layers and O
is the insulating spacer. We aim to explain the strong interface sensitivity of
the tunneling properties of MTJ's and investigate the influence of electron
scattering at the nonideal interfaces on the degradation of the TMR magnitude.
The generalized Kubo formalism and the Green's functions method were used to
calculate the conductance of the system. The vertex corrections to the
conductivity were found with the use of "ladder" approximation combined with
the coherent-potential approximation (CPA) that allowed to consider the case of
strong electron scattering. It is shown that the Ward identity is satisfied in
the framework of this approximation that provides the necessary condition for a
conservation of a tunneling current. Based on the known results of ab-initio
calculations of the TMR for ballistic junctions, we assume that exchange split
quasi-free s-like electrons with the density of states being greater for the
majority spin sub-band give the main contribution to the TMR effect. We show
that, due to interfacial inter-band scattering, the TMR can be substantially
reduced even down to zero value. This is related to the fact that delocalized
quasi-free electrons can scatter into the strongly localized d sub-band with
the density of states at the Fermi energy being larger for minority spins
compared to majority spins. It is also shown that spin-flip electron scattering
on the surface magnons within the interface leads to a further decrease of the
TMR at finite temperature.Comment: REVTeX4, 20 pages, 9 figures, 1 table, submitted to Phys.Rev.B; In
Version 2 the text is substantially improved, the main results and
conclusions left the sam
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