Nonlinear Dynamics of Composite Fermions in Nanostructures

Ashcroft N. W.; C Holzknecht; Chakraborty T.; Fleischmann R.; Fleischmann R.; Frost J. E. F. .; Goldhaber A. S.; Hackenbroich G.; Herfort J. .; Leadley D. R. .; Prange R. E.; R Fleischmann; R Ketzmerick; Read N.; Richter K.; T Geisel; Van Houten H. .

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Nonlinear Dynamics of Composite Fermions in Nanostructures

Authors: Ashcroft N. W.
C Holzknecht
Chakraborty T.
Fleischmann R.
Fleischmann R.
Frost J. E. F. .
Goldhaber A. S.
Hackenbroich G.
Herfort J. .
Leadley D. R. .
Prange R. E.
R Fleischmann
R Ketzmerick
Read N.
Richter K.
T Geisel
Van Houten H. .
Publication date: 13 September 1996
Publisher: 'IOP Publishing'
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Abstract

We outline a theory describing the quasi-classical dynamics of composite fermions in the fractional quantum Hall regime in the potentials of arbitrary nanostructures. By an appropriate parametrization of time we show that their trajectories are independent of their mass and dispersion. This allows to study the dynamics in terms of an effective Hamiltonian although the actual dispersion is as yet unknown. The applicability of the theory is verified in the case of antidot arrays where it explains details of magnetoresistance measurements and thus confirms the existence of these quasiparticles.Comment: submitted to Europhys. Lett., 4 pages, postscrip

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