Canonical Vielbeins for General Relativity: D + 1 Decomposition and Constraint Analysis

Abstract

We provide a self-contained derivation of the Hamiltonian formulation of General Relativity in vielbein variables in d=D+1 dimensions. Starting from the Einstein--Hilbert action in a standard metric D+1 decomposition, we derive Lorentz- and SO(D)-covariant phase-space actions, identify the primary Lorentz constraints, and obtain the Hamiltonian and momentum constraints. We compute the resulting first-class constraint algebra, relate the vielbein and metric phase-space formulations, and discuss the rotation/boost decomposition. In particular, we construct the boost generator in the SO(D)-covariant formulation, thereby recovering full local Lorentz symmetry.