Abstract
We perform a detailed analysis of Galilean field theories, starting with free theories and then interacting theories. We consider non-relativistic versions of massless scalar and Dirac field theories before we go on to review our previous construction of Galilean Electrodynamics and Galilean Yang-Mills theory. We show that in all these cases, the field theories exhibit non-relativistic conformal structure (in appropriate dimensions). The surprising aspect of the analysis is that the non-relativistic conformal structure exhibited by these theories, unlike relativistic conformal invariance, becomes infinite dimensional even in spacetime dimensions greater than two. We then couple matter with Galilean gauge theories and show that there is a myriad of different sectors that arise in the non-relativistic limit from the parent relativistic theories. In every case, if the parent relativistic theory exhibited conformal invariance, we find an infinitely enhanced Galilean conformal invariance in the non-relativistic case. This leads us to suggest that infinite enhancement of symmetries in the non-relativistic limit is a generic feature of conformal field theories in any dimension.
Highlights
quantum field theories (QFTs) can be understood as RG flows away from fixed points governed by conformal symmetry
We find that all of these Galilean field theories are invariant under the finite Galilean Conformal Algebra (GCA), which is the contraction of symmetries of the parent system, they are invariant under the full infinite dimensional extension of the GCA.2
We describe the conformal transformations of fields and review the formalism of checking for conformal symmetry from the point of view of the equations of motion (EOM) following [21]
Summary
We will provide a quick summary of the GCA along with a description of its representation theory. The details of the representation theory constructed here will be used in the coming sections to find the symmetries of the EOM of several non-relativistic field theories
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