Jonas Bylander, Tim Duty, Per Delsing
Published 2005-08-29Version 1
We report a direct detection of time correlated single-electron tunneling oscillations in a series array of small tunnel junctions. Here the current, I, is made up of a lattice of charge solitons moving throughout the array by time correlated tunneling with the frequency f=I/e, where e is the electron charge. To detect the single charges, we have integrated the array with a radio-frequency single-electron transistor (RF-SET) and employed two different methods to couple the array to the SET input: by direct injection through a tunnel junction, and by capacitive coupling. In this paper we report the results from the latter type of charge input, where we have observed the oscillations in the frequency domain and measured currents from 50 to 250 fA by means of electron counting.
Comments: 2 pages, 1 figure; submitted to the 10th International Superconductive Electronics Conference (ISEC'05), the Netherlands, Sept. 2005
Direct Observation of Local Magnetic Field Generated by Micromagnet
Direct Observation of a Fractional Charge
Intrinsic noise of a micro-mechanical displacement detector based on the radio-frequency single-electron transistor
