Submitted Abstract
The recent progress in fabrication of complex hybrid mesoscopic devices based on QH effect, such as single electron transistor, electronic interferometers, coupled single layer surfaces, levitonic sources, made it possible to concentrate more closely on physics of chiral surface edge states and addresses new questions. Thus, further theoretical progress is necessary. In this project, using the non-equilibrium bosonization technique and standard quantum field methods, the fundamental questions such as equilibration at quantum Hall edge, single electron effects and thermal transport in “charge” Kondo circuit based on chiral edge states, Coulomb drag between edge states of different single layer materials, exchange of quasi-particles in mesoscopic colliders with floating Ohmic contacts and Levitonic sources will be investigated. The theoretical study of these questions will improve our basic understanding of electronic properties of QH edge states and it is important for ongoing experiments.