Q-balls of Quasi-particles in a (2,0)-theory model of the Fractional Quantum Hall Effect

Abstract

A toy model of the fractional quantum Hall effect appears as part of the low-energy description of the Coulomb branch of the A1 (2,0)-theory formulated on (S1× R2)/Zk, where the generator of Zk acts as a combination of translation on S1 and rotation by 2π/k on R2. At low energy the configuration is described in terms of a 4+1D Super-Yang-Mills theory on a cone (R2/Zk) with additional 2+1D degrees of freedom at the tip of the cone that include fractionally charged particles. These fractionally charged quasi-particles are BPS strings of the (2,0)-theory wrapped on short cycles. We analyze the large k limit, where a smooth cigar-geometry provides an alternative description. In this framework a W-boson can be modeled as a bound state of k quasi-particles. The W-boson becomes a Q-ball, and it can be described as a soliton solution of Bogomolnyi monopole equations on a certain auxiliary curved space. We show that axisymmetric solutions of these equations correspond to singular maps from AdS3 to AdS2, and we present some numerical results and an asymptotic expansion.