English

Mode-Locking in Quantum-Hall-Effect Point Contacts

Mesoscale and Nanoscale Physics 2009-10-28 v2

Abstract

We study the effect of an ac drive on the current-voltage (I-V) characteristics of a tunnel junction between two fractional Quantum Hall fluids at filling ν1\nu ^{-1} an odd integer. Within the chiral Luttinger liquid model of edge states, the point contact dynamics is described by a driven damped quantum mechanical pendulum. In a semi-classical limit which ignores electron tunnelling, this model exhibits mode-locking, which corresponds to current plateaus in the I-V curve at integer multiples of I=eω/2πI= e\omega /2\pi, with ω\omega the ac drive angular frequency. By analyzing the full quantum model at non-zero ν\nu using perturbative and exact methods, we study the effect of quantum fluctuation on the mode-locked plateaus. For ν=1\nu=1 quantum fluctuations smear completely the plateaus, leaving no trace of the ac drive. For ν1/2\nu \ge 1/2 smeared plateaus remain in the I-V curve, but are not centered at the currents I=neω/2πI=n e \omega /2\pi. For ν<1/2\nu < 1/2 rounded plateaus centered around the quantized current values are found. The possibility of using mode locking in FQHE point contacts as a current-to-frequency standard is discussed.

Keywords

Cite

@article{arxiv.cond-mat/9510156,
  title  = {Mode-Locking in Quantum-Hall-Effect Point Contacts},
  author = {Hsiu-Hau Lin and Matthew P. A. Fisher},
  journal= {arXiv preprint arXiv:cond-mat/9510156},
  year   = {2009}
}

Comments

12 pages, 8 figures, minor changes