599 research outputs found
Metal-insulator transition at B=0 in an ultra-low density () two dimensional GaAs/AlGaAs hole gas
We have observed a metal-insulator transition in an ultra-low density two
dimensional hole gas formed in a high quality GaAs-AlGaAs heterostructure at
B=0. At the highest carrier density studied () the hole gas is strongly metallic, with an exceptional mobility of
. The low disorder and strength of the many-body
interactions in this sample are highlighted by the observation of re-entrant
metal insulator transitions in both the fractional () and integer
() quantum Hall regimes. On reducing the carrier density the
temperature and electric field dependence of the resistivity show that the
sample is still metallic at (), becoming
insulating at . Our results indicate that
electron-electron interactions are dominant at these low densities, pointing to
the many body origins of this metal-insulator transition. We note that the
value of at the transition () is large enough to allow
the formation of a weakly pinned Wigner crystal, and is approaching the value
calculated for the condensation of a pure Wigner crystal.Comment: 4 pages, latex, 4 postscript figures, submitted to EP2DS-12 on 21st
August 1997, to appear in Physica
Induced currents, frozen charges and the quantum Hall effect breakdown
Puzzling results obtained from torque magnetometry in the quantum Hall effect
(QHE) regime are presented, and a theory is proposed for their explanation.
Magnetic moment saturation, which is usually attributed to the QHE breakdown,
is shown to be related to the charge redistribution across the sample.Comment: 5 pages, 2 figures, Proceedings of the 11th International Symposium
"Nanostructures: Physics and Technology", St.Petersburg, Russia, June 23-28,
2003, expanded version with one figure adde
The Aharonov-Bohm Effect in the Fractional Quantum Hall Regime
We have investigated experimentally resonant tunnelling through
single-particle states formed around an antidot by a magnetic field, in the
fractional quantum Hall regime. For 1/3 filling factor around the antidot,
Aharonov-Bohm oscillations are observed with the same magnetic field period as
in the integer quantum Hall regime. All our measurements are consistent with
quasiparticles of fractional charge e*. However, the results are also
consistent with particles of any charge (>= e*) as the system must rearrange
every time the flux enclosed increases by h/e.Comment: Postscript, 4 pages, gzipped (350 kB
Experimental evidence of a metal-insulator transition in a half-filled Landau level
We have measured the low-temperature transport properties of a high-mobility
front-gated GaAs/Al_{0.33}Ga_{0.67}As heterostructure. By changing the applied
gate voltage, we can vary the amount of disorder within the system. At a Landau
level filling factor , where the system can be described by the
composite fermion picture, we observe a crossover from metallic to insulating
behaviour as the disorder is increased. Experimental results and theoretical
prediction are compared.Comment: To be published in Solid State Communications. 4 figure
Detection of Coulomb Charging around an Antidot
We have detected oscillations of the charge around a potential hill (antidot)
in a two-dimensional electron gas as a function of a perpendicular magnetic
field B. The field confines electrons around the antidot in closed orbits, the
areas of which are quantised through the Aharonov-Bohm effect. Increasing B
reduces each state's area, pushing electrons closer to the centre, until enough
charge builds up for an electron to tunnel out. This is a new form of the
Coulomb blockade seen in electrostatically confined dots. We have also studied
h/2e oscillations and found evidence for coupling of opposite spin states of
the lowest Landau level.Comment: 3 pages, 3 Postscript figures, submitted to the proceedings of
EP2DS-1
Geometric Suppression of Single-Particle Energy Spacings in Quantum Antidots
Quantum Antidot (AD) structures have remarkable properties in the integer
quantum Hall regime, exhibiting Coulomb-blockade charging and the Kondo effect
despite their open geometry. In some regimes a simple single-particle (SP)
model suffices to describe experimental observations while in others
interaction effects are clearly important, although exactly how and why
interactions emerge is unclear. We present a combination of experimental data
and the results of new calculations concerning SP orbital states which show how
the observed suppression of the energy spacing between states can be explained
through a full consideration of the AD potential, without requiring any effects
due to electron interactions such as the formation of compressible regions
composed of multiple states, which may occur at higher magnetic fields. A full
understanding of the regimes in which these effects occur is important for the
design of devices to coherently manipulate electrons in edge states using AD
resonances.Comment: 4 pages, 2 figure
A Supersymmetric Effective Chiral Lagrangian
We construct in a manifestly supersymmetric form the leading and subleading
terms in momentum for an effective supersymmetric chiral Lagrangian in terms of
complex pions and their superpartners. A soft supersymmetry breaking term is
included and below the supersymmetry breaking scale the Lagrangian reduces to
the usual bosonic chiral Lagrangian in terms of real pions.Comment: University of Southampton preprint no. SHEP 93/94-12 LATE
Stroke recovery in rats after 24h-delayed intramuscular neurotrophin-3 infusion
Objective
Neurotrophinâ3 (NT3) plays a key role in the development and function of locomotor circuits including descending serotonergic and corticospinal tract axons and afferents from muscle and skin. We have previously shown that gene therapy delivery of human NT3 into affected forelimb muscles improves sensorimotor recovery after stroke in adult and elderly rats. Here, to move toward the clinic, we tested the hypothesis that intramuscular infusion of NT3 protein could improve sensorimotor recovery after stroke.
Methods
Rats received unilateral ischemic stroke in sensorimotor cortex. To simulate a clinically feasible time to treatment, 24 hours later rats were randomized to receive NT3 or vehicle by infusion into affected triceps brachii for 4 weeks using implanted catheters and minipumps.
Results
Radiolabeled NT3 crossed from the bloodstream into the brain and spinal cord in rodents with or without strokes. NT3 increased the accuracy of forelimb placement during walking on a horizontal ladder and increased use of the affected arm for lateral support during rearing. NT3 also reversed sensory impairment of the affected wrist. Functional magnetic resonance imaging during stimulation of the affected wrist showed spontaneous recovery of periâinfarct blood oxygenation levelâdependent signal that NT3 did not further enhance. Rather, NT3 induced neuroplasticity of the spared corticospinal and serotonergic pathways.
Interpretation
Our results show that delayed, peripheral infusion of NT3 can improve sensorimotor function after ischemic stroke. Phase I and II clinical trials of NT3 (for constipation and neuropathy) have shown that peripheral high doses are safe and well tolerated, which paves the way for NT3 as a therapy for stroke
Temperature dependence of the breakdown of the quantum Hall effect studied by induced currents
Copyright © 2004 The American Physical SocietyWe have developed a model of the high-current breakdown of the integer quantum Hall effect, as measured in contactless experiments using a highly-sensitive torsion balance magnetometer. The model predicts that, for empirically âlow-mobilityâ samples (ÎŒ<75 m2 Vâ1 sâ1), the critical current for breakdown should decrease with, and have a linear dependence on, temperature. This prediction is verified experimentally with the addition of a low-temperature saturation of the critical current at a temperature that depends on both sample number density and filling factor. It is shown that this saturation is consistent with quasielastic inter-Landau-level scattering when the maximum electric field in the sample reaches a large enough value. In addition we show how this model can be extended to give qualitative agreement with experiments on high-mobility samples
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