Self-excited oscillations of charge-spin accumulation due to single-electron tunneling
Journal article, 2010
We theoretically study electronic transport through a layer of quantum dots connecting two metallic leads. By the inclusion of an inductor in series with the junction, we show that steady electronic transport in such a system may be unstable with respect to temporal oscillations caused by an interplay between the Coulomb blockade of tunneling and spin accumulation in the dots. When this instability occurs, a new stable regime is reached, where the average spin and charge in the dots oscillate periodically in time. The frequency of these oscillations is typically on the order of 1 GHz for realistic values of the junction parameters.
magnetoresistance
magnetic-field
single-electron tunneling
quantum dots
junctions
coulomb-blockade
transport
Author
Danko Radic
Chalmers, Applied Physics, Condensed Matter Theory
University of Gothenburg
Anatoli M. Kadigrobov
University of Gothenburg
Leonid Gorelik
Chalmers, Applied Physics, Condensed Matter Theory
Robert I. Shekhter
University of Gothenburg
Mats Jonson
University of Gothenburg
Physical Review B - Condensed Matter and Materials Physics
24699950 (ISSN) 24699969 (eISSN)
Vol. 82 12 125311 (7 pages)-Subject Categories
Condensed Matter Physics
DOI
10.1103/PhysRevB.82.125311