From N=\,4 Galilean superparticle to three-dimensional non-relativistic N=\,4 superfields

Abstract

We consider the general N=\,4, d=\,3 Galilean superalgebra with arbitrary central charges and study its dynamical realizations. Using the nonlinear realization techniques, we introduce a class of actions for N=\,4 three-dimensional non-relativistic superparticle, such that they are linear in the central charge Maurer-Cartan one-forms. As a prerequisite to the quantization, we analyze the phase space constraints structure of our model for various choices of the central charges. The first class constraints generate gauge transformations, involving fermionic -gauge transformations. The quantization of the model gives rise to the collection of free N=\,4, d=\,3 Galilean superfields, which can be further employed, e.g., for description of three-dimensional non-relativistic N=\,4 supersymmetric theories.