3,237 research outputs found
Scanning Gate Spectroscopy on Nanoclusters
A gated probe for scanning tunnelling microscopy (STM) has been developed.
The probe extends normal STM operations by means of an additional electrode
fabricated next to the tunnelling tip. The extra electrode does not make
contact with the sample and can be used as a gate. We report on the recipe used
for fabricating the tunnelling tip and the gate electrode on a silicon nitride
cantilever. We demonstrate the functioning of the scanning gate probes by
performing single-electron tunnelling spectroscopy on 20-nm gold clusters for
different gate voltages.Comment: 3 pages, 4 figure
On the temperature dependence of ballistic Coulomb drag in nanowires
We have investigated within the theory of Fermi liquid dependence of Coulomb
drag current in a passive quantum wire on the applied voltage across an
active wire and on the temperature for any values of . We assume
that the bottoms of the 1D minibands in both wires almost coincide with the
Fermi level. We come to conclusions that 1) within a certain temperature
interval the drag current can be a descending function of the temperature ;
2) the experimentally observed temperature dependence of the drag
current can be interpreted within the framework of Fermi liquid theory; 3) at
relatively high applied voltages the drag current as a function of the applied
voltage saturates; 4) the screening of the electron potential by metallic gate
electrodes can be of importance.Comment: 7 pages, 1 figur
Shot noise of Coulomb drag current
We work out a theory of shot noise in a special case. This is a noise of the
Coulomb drag current excited under the ballistic transport regime in a
one-dimensional nanowire by a ballistic non-Ohmic current in a nearby parallel
nanowire. We predict sharp oscillation of the noise power as a function of gate
voltage or the chemical potential of electrons. We also study dependence of the
noise on the voltage V across the driving wire. For relatively large values of
V the noise power is proportional to V^2.Comment: 9 pages, 2 figure
Detection of Quantum Noise from an Electrically-Driven Two-Level System
Quantum mechanics can strongly influence the noise properties of mesoscopic
devices. To probe this effect we have measured the current fluctuations at
high-frequency (5-90 GHz) using a superconductor-insulator-superconductor
tunnel junction as an on-chip spectrum analyser. By coupling this
frequency-resolved noise detector to a quantum device we can measure the
high-frequency, non-symmetrized noise as demonstrated for a Josephson junction.
The same scheme is used to detect the current fluctuations arising from
coherent charge oscillations in a two-level system, a superconducting charge
qubit. A narrow band peak is observed in the spectral noise density at the
frequency of the coherent charge oscillations.Comment: 16 pages, 4 figure
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