Lifting Spacetime's Poincar\'e Symmetries

Abstract

In the following work, we pedagogically develop 5-vector theory, an evolution of scalar field theory that provides a stepping stone toward a Poincar\'e-invariant lattice gauge theory. Defining a continuous flat background via the four-dimensional Cartesian coordinates \xa\, we `lift' the generators of the Poincar\'e group so that they transform only the fields existing upon \xa\, and do not transform the background \xa\ itself. To facilitate this effort, we develop a non-unitary particle representation of the Poincar\'e group, replacing the classical scalar field with a 5-vector matter field. We further augment the vierbein into a new 5×5 f\"unfbein, which `solders' the 5-vector field to \xa\. In so doing, we form a new intuition for the Poincar\'e symmetries of scalar field theory. This effort recasts `spacetime data', stored in the derivatives of the scalar field, as `matter field data', stored in the 5-vector field itself. We discuss the physical implications of this `Poincar\'e lift', including the readmittance of an absolute reference frame into relativistic field theory. In a companion paper, we demonstrate that this theoretical development, here construed in a continuous universe, enables the description of a discrete universe that preserves the 10 infinitesimal Poincar\'e symmetries and their conservation laws.