Integrable and superintegrable systems of cylindrical type in magnetic fields

Abstract

The goal of this thesis is the search for integrable and superintegrable systems with magnetic field. We formulate the quantum mechanical determining equations for second order integrals of motion in the cylindrical coordinates and we find all quadratically integrable systems of the cylindrical type. Among them we search for systems admitting additional integrals of motion. We find all systems with an additional first order integral both in classical and quantum mechanics. It turns out that all these systems have already been known and no other exist. We also find all systems with an additional integral of type L2+…, respectively Ly py-Lx py+…, of which the majority is new to the literature. All found superintegrable systems admit the first order integral Lz and we solve their Hamilton-Jacobi and Schr\"odinger equations by separation of variables in the cylindrical coordinates, for the first order systems in the Cartesian coordinates as well.