Brian P. Dolan
Published 1998-05-14, updated 1999-01-28Version 2
We explore the consequences of introducing a complex conductivity into the quantum Hall effect. This leads naturally to an action of the modular group on the upper-half complex conductivity plane. Assuming that the action of a certain subgroup, compatible with the law of corresponding states, commutes with the renormalisation group flow, we derive many properties of both the integer and fractional quantum Hall effects, including: universality; the selection rule $|p_1q_2 - p_2q_1|=1$ for quantum Hall transitions between filling factors $\nu_1=p_1/q_1$ and $\nu_2=p_2/q_2$; critical values for the conductivity tensor; and Farey sequences of transitions. Extra assumptions about the form of the renormalisation group flow lead to the semi-circle rule for transitions between Hall plateaus.
Comments: 3 pages, 1 table and 2 figures. Typeset in RevTeX. Some minor modifications and typos corrected
Journal: J.Phys. A32 (1999) L243
Theoretical basis for the unification of the integer and the fractional quantum Hall effects
A drop model of integer and fractional quantum Hall effects
Fractional quantum Hall effects in bilayers in the presence of inter-layer tunneling and charge imbalance
