Essential self-adjointness of symmetric first-order differential systems and confinement of Dirac particles on bounded domains in Rd

Abstract

We prove essential self-adjointness of Dirac operators with Lorentz scalar potentials which grow sufficiently fast near the boundary ∂ of the spatial domain ⊂ Rd. On the way, we first consider general symmetric first order differential systems, for which we identify a new, large class of potentials, called scalar potentials, ensuring essential self-adjointness. Furthermore, using the supersymmetric structure of the Dirac operator in the two dimensional case, we prove confinement of Dirac particles, i.e. essential self-adjointness of the operator, solely by magnetic fields B assumed to grow, near ∂, faster than 1/(2dist (x, ∂)2).