Generalized lines of force as the gauge invariant degrees of freedom for general relativity and Yang-Mills theory

31 August 1992

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 69 (9) , 1300-1303
https://doi.org/10.1103/physrevlett.69.1300

Abstract

We present a set of equations that determine (with certain qualifications) what is (i) a complete canonical set of gauge-invariant variables for Yang-Mills (YM) theory that generalize Faraday’s electric lines of force and (ii) a complete canonical set of the diffeomorphism and gauge invariant observables for general relativity (GR). Both results come from solving the Hamilton-Jacobi version of the constraint equations: the Gauss law constraints of YM theory and the Gauss law and diffeomorphism constraint of GR in the Ashtekar formalism. These results are local in physical space as well as in phase space.

Keywords

This publication has 22 references indexed in Scilit:

On Hamiltonian systems with first-class constraints
Journal of Mathematical Physics, 1991
Ashtekar formulation of general relativity and loop-space nonperturbative quantum gravity: a report
Classical and Quantum Gravity, 1991
New Hamiltonian formulation of general relativity
Physical Review D, 1987
New Variables for Classical and Quantum Gravity
Physical Review Letters, 1986
Hamilton–Jacobi theory for constrained systems
Journal of Mathematical Physics, 1984
Space-time orbits for interacting relativistic particles: Syntactic versus semantic observables
Physical Review D, 1978
Constraint formalism of classical mechanics
Physical Review D, 1978
Interacting relativistic particles
Physical Review D, 1978
Derivation of the Ten Einstein Field Equations from the Semiclassical Approximation to Quantum Geometrodynamics
Physical Review B, 1969
On Cauchy’s problem in general relativity - II
Il Nuovo Cimento (1869-1876), 1962