484 research outputs found
Spin-orbit interaction and weak localization in heterostructures
Theory of weak localization in two-dimensional high-mobility semiconductor
systems is developed with allowance for the spin-orbit interaction. The
obtained expressions for anomalous magnetoresistance are valid in the whole
range of classically weak magnetic fields and for arbitrary strengths of bulk
and structural inversion asymmetry contributions to the spin splitting. The
theory serves for both diffusive and ballistic regimes of electron propagation
taking into account coherent backscattering and nonbackscattering processes.
The transition between weak localization and antilocalization regimes is
analyzed. The manifestation of the mutual compensation of Rashba and
Dresselhaus spin splittings in magnetoresistance is discussed. Perfect
description of experimental data on anomalous magnetoresistance in
high-mobility heterostructures is demonstrated. The in-plane magnetic field
dependence of the conductivity caused by an interplay of the spin-orbit
splittings and Zeeman effect is described theoretically.Comment: Review for the special issue of Semicond. Sci. Technol. "The effects
of spin-orbit interaction on charge transport". 8 pages, 5 figure
Fermi-liquid behaviour of the low-density 2D hole gas in GaAs/AlGaAs heterostructure at large values of r_s
We examine the validity of the Fermi-liquid description of the dilute 2D hole
gas in the crossover from 'metallic'-to-'insulating' behaviour of R(T).It has
been established that, at r_s as large as 29, negative magnetoresistance does
exist and is well described by weak localisation. The dephasing time extracted
from the magnetoresistance is dominated by the T^2 -term due to Landau
scattering in the clean limit. The effect of hole-hole interactions, however,
is suppressed when compared with the theory for small r_s.Comment: 4 pages ReVTeX, 4 ps figure
Gate-Controlled Spin-Orbit Quantum Interference Effects in Lateral Transport
In situ control of spin-orbit coupling in coherent transport using a clean
GaAs/AlGaAs 2DEG is realized, leading to a gate-tunable crossover from weak
localization to antilocalization. The necessary theory of 2D magnetotransport
in the presence of spin-orbit coupling beyond the diffusive approximation is
developed and used to analyze experimental data. With this theory the Rashba
contribution and linear and cubic Dresselhaus contributions to spin-orbit
coupling are separately estimated, allowing the angular dependence of
spin-orbit precession to be extracted at various gate voltages.Comment: related papers at http://marcuslab.harvard.ed
Pion-nucleon scattering in a meson-exchange model
The pi-N interaction is studied within a meson-exchange model and in a
coupled-channels approach which includes the channels pi-N, eta-N, as well as
three effective pi-pi-N channels namely rho-N, pi-Delta, and sigma-N. Starting
out from an earlier model of the Julich group systematic improvements in the
dynamics and in some technical aspects are introduced. With the new model an
excellent quantitative reproduction of the pi-N phase shifts and inelasticity
parameters in the energy region up to 1.9 GeV and for total angular momenta J
leq 3/2 is achieved. Simultaneously, good agreement with data for the total and
differential pi-N -> eta-N transition cross sections is obtained. The
connection of the pi_N dynamics in the S_{11} partial wave with the reaction
pi-N -> eta-N is discussed.Comment: 32 pages, 9 figure
Serum aspirin esterase is strongly associated with glucose and lipids in healthy subjects: different association patterns in subjects with type 2 diabetes mellitus
<p>Abstract</p> <p>Background</p> <p>Aspirin esterase (AE) activity can account for part of aspirin pharmacokinetics in the circulation, possibly being associated with the impairment of aspirin effectiveness as an inhibitor of platelet aggregation.</p> <p>Aims</p> <p>The study was aimed at investigating the correlations of serum AE activity with cholinesterase (ChE) and metabolic variables in healthy subjects in comparison to subjects with type 2 diabetes mellitus (T2DM).</p> <p>Methods</p> <p>In cardiovascular disease-free T2DM subjects and healthy controls, the AE activity levels and/or the correlation patterns between AE and the other variables were analyzed.</p> <p>Results</p> <p>Neither AE nor ChE activities were higher in the subjects with T2DM. Serum AE activity strongly correlated with ChE as well as glucose/lipids variables such as total cholesterol and triglyceride in healthy subjects, while the correlations between AE and glucose/lipids variables were not present in T2DM subjects.</p> <p>Conclusions</p> <p>These data may reflect the pathophysiological changes between healthy and T2DM subjects. Our data may thus provide the basis for future studies to unravel the mechanisms.</p
Looking into the matter of light-quark hadrons
In tackling QCD, a constructive feedback between theory and extant and
forthcoming experiments is necessary in order to place constraints on the
infrared behaviour of QCD's \beta-function, a key nonperturbative quantity in
hadron physics. The Dyson-Schwinger equations provide a tool with which to work
toward this goal. They connect confinement with dynamical chiral symmetry
breaking, both with the observable properties of hadrons, and hence provide a
means of elucidating the material content of real-world QCD. This contribution
illustrates these points via comments on: in-hadron condensates; dressed-quark
anomalous chromo- and electro-magnetic moments; the spectra of mesons and
baryons, and the critical role played by hadron-hadron interactions in
producing these spectra.Comment: 11 pages, 7 figures. Contribution to the Proceedings of "Applications
of light-cone coordinates to highly relativistic systems - LIGHTCONE 2011,"
23-27 May, 2011, Dallas. The Proceedings will be published in Few Body
System
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