Hall Conductivities for Confined System in Noncommutative Plane

Abstract

We propose an approach based on the generalized quantum mechanics to deal with the basic features of the spin Hall effect. We begin by considering two decoupled harmonic oscillators on the noncommutative plane and determine the solutions of the energy spectrum. We realize two algebras in terms of the quadratic observables and show their importance in filling the shells with fermions. Under some transformation we show that our system is submitted to an effective Lorentz force similar to that acting on one particle in an external magnetic field. From equation of motions, we end up with the charge and spin Hall conductivities as function of the noncommutative parameter θ. By switching off θ we recover standard results developed on the subject and in the limit θ --> 0 we show that our approach can reproduce the Laughin wavefunctions.