Stochastic dynamics of 2D electrons in a periodic lattice of antidots
Baskin E. M. , Gusev G. M., Kvon Z. D., Pogosov A. G., Entin M. V.
The motion of electrons in a periodic 2D lattice of antidots in a classically strong magnetic field is analyzed from the standpoint of dynamic-chaos theory. There exist stable trajectories which "roll" along rows of the lattice. The diffusion coefficient is calculated by numerical simulation. The results are used to explain some magnetoresistance oscillations seen experimentally.
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![](/ps/1278/article_19333_800_head.png "The motion of electrons in a periodic 2D lattice of antidots in a classically strong magnetic field is analyzed from the standpoint of dynamic-chaos theory. There exist stable trajectories which "roll" along rows of the lattice. The diffusion coefficient is calculated by numerical simulation. The results are used to explain some magnetoresistance oscillations seen experimentally.")