650 research outputs found
Spintronics-based mesoscopic heat engine
We consider a nanowire suspended on two spin-polarized leads and subject to a
nonuniform magnetic field. We show that in such a system a temperature drop
between leads can significantly affect the nanowire dynamics. In particular, it
is demonstrated that under certain conditions the stationary distribution of
the mechanical subsystem has Boltzmann form with effective temperature which is
smaller than the temperature of the "cold" lead; this seems rather
counterintuitive. We also find that the change of the direction of the
temperature gradient results in generation of mechanical vibrations rather than
heating of the mechanical subsystem.Comment: 5 pages, 3 figure
Suppression of stochastic fluctuations of suspended nanowires by temperature-induced single-electron tunnelling
We investigate theoretically the electromechanical properties of freely
suspended nanowires that are in tunnelling contact with the tip of a scanning
tunnelling microscope (STM) and two supporting metallic leads. The aim of our
analysis is to characterize the fluctuations of the dynamical variables of the
nanowire when a temperature drop is mantained between the STM tip and the
leads, which are all assumed to be electrically grounded. By solving a quantum
master equation that describes the coupled dynamics of electronic and
mechanical degrees of freedom we find that the stationary state of the
mechanical oscillator has a Gaussian character, but that the amplitude of its
root-mean square center-of-mass fluctuations is smaller than would be expected
if the system were coupled only to the leads at thermal equilibrium.Comment: Published versio
Vibrational Instability due to Coherent Tunneling of Electrons
Effects of a coupling between the mechanical vibrations of a quantum dot
placed between the two leads of a single electron transistor and coherent
tunneling of electrons through a single level in the dot has been studied. We
have found that for bias voltages exceeding a certain critical value a
dynamical instability occurs and mechanical vibrations of the dot develop into
a stable limit cycle. The current-voltage characteristics for such a transistor
were calculated and they seem to be in a reasonably good agreement with recent
experimental results for the single -molecule transistor by Park et
al.(Nature {\bf 407,} (2000) 57).Comment: 5 pages, 3 figure
Resonant microwave properties of a voltage-biased single-Cooper-pair transistor
We consider the microwave dynamics and transport properties of a
voltage-biased single-Cooper-pair transistor. The dynamics is shown to be
strongly affected by interference between multiple microwave-induced
inter-level transitions. As a result the magnitude and direction of the dc
Josephson current are extremely sensitive to small variations of the bias
voltage and to changes in the frequency of the microwave field.Comment: 6 pages, 4 figure
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