Spacetime Quantum Mechanics and the Quantum Mechanics of Spacetime

TL;DR

This paper develops a generalized sum-over-histories quantum framework for quantum cosmology that does not depend on a preferred time or measurement, unifying quantum mechanics with spacetime geometry.

Contribution

It introduces a spacetime-based quantum mechanics formalism applicable to gravity and matter, extending traditional Hamiltonian approaches.

Findings

Constructed sum-over-histories quantum theories for gravity and matter.

Expressed quantum mechanics of spacetime in fully spacetime form.

Recovered Hamiltonian quantum mechanics as an approximation.

Abstract

These are the author's lectures at the 1992 Les Houches Summer School, "Gravitation and Quantizations". They develop a generalized sum-over-histories quantum mechanics for quantum cosmology that does not require either a preferred notion of time or a definition of measurement. The "post-Everett" quantum mechanics of closed systems is reviewed. Generalized quantum theories are defined by three elements (1) the set of fine-grained histories of the closed system which are its most refined possible description, (2) the allowed coarse grainings which are partitions of the fine-grained histories into classes, and (3) a decoherence functional which measures interference between coarse grained histories. Probabilities are assigned to sets of alternative coarse-grained histories that decohere as a consequence of the closed system's dynamics and initial condition. Generalized sum-over histories quantum theories are constructed for non-relativistic quantum mechanics, abelian gauge theories, a single relativistic world line, and for general relativity. For relativity the fine-grained histories are four-metrics and matter fields. Coarse grainings are four-dimensional diffeomorphism invariant partitions of these. The decoherence function is expressed in sum-over-histories form. The quantum mechanics of spacetime is thus expressed in fully spacetime form. The coarse-grainings are most general notion of alternative for quantum theory expressible in spacetime terms. Hamiltonian quantum mechanics of matter fields with its notion of unitarily evolving state on a spacelike surface is recovered as an approximation to this generalized quantum mechanics appropriate for those initial conditions and coarse-grainings such that spacetime geometry