Aharonov-Bohm effect in one-channel weakly disordered rings
arXiv:cond-mat/9910067 · doi:10.1007/s100510070211
Abstract
A new diagrammatic method, which is a reformulation of Berezinskii's technique, is constructed to study the density of electronic states $Ï(ε,Ï)$ of a one-channel weakly disordered ring, threaded by an external magnetic flux. The exact result obtained for the density of states shows an oscillation of $Ï(ε,Ï)$ with a period of the flux quantum $Ï_0= hc/e $. As the sample length (or the impurity concentration) is reduced, a transition takes place from the weak localization regime (L >> l) to the ballistic one (L <= l). The analytical expression for the density of states shows the exact dependence of $Ï(ε,Ï)$ on the ring's circumference and on disorder strength for both regimes.
extended and illustrated version