Magnetotunneling as a Probe of Luttinger-Liquid Behavior
arXiv:cond-mat/9907459 · doi:10.1103/PhysRevLett.83.1203
Abstract
A novel method for detecting Luttinger-liquid behavior is proposed. The idea is to measure the tunneling conductance between a quantum wire and a parallel two-dimensional electron system as a function of both the potential difference between them, $V$, and an in-plane magnetic field, $B$. We show that the two-parameter dependence on $B$ and $V$ allows for a determination of the characteristic dependence on wave vector $q$ and frequency $Ï$ of the {\it spectral function}, $A_{\rm LL}(q,Ï)$, of the quantum wire. In particular, the separation of spin and charge in the Luttinger liquid should manifest itself as singularities in the $I$-$V$-characteristic. The experimental feasibility of the proposal is discussed.
Accepted for publication in Phys. Rev. Lett