B. Starmark, Torsten Henning, A. N. Korotkov, T. Claeson, P. Delsing
Published 1998-06-29Version 1
An extensive investigation of low frequency noise in single electron transistors as a function of gain is presented. Comparing the output noise with gain for a large number of bias points, it is found that the noise is dominated by external charge noise. For low gains we find an additional noise contribution which is compared to a model including resistance fluctuations. We conclude that this excess noise is not only due to resistance fluctuations. For one sample, we find a record low minimum charge noise of qn = 9*10^-6 e/sqrt(Hz) in the superconducting state and qn = 9*10^-6 e/sqrt(Hz) in the normal state at a frequency of 4.4 kHz.
Comments: 10 pages, LaTex 2.09, 4 figures (epsfig)
A single electron transistor with quantum rings
A tunable, dual mode field-effect or single electron transistor
Conductance of the Single Electron Transistor for Arbitrary Tunneling Strength
