Fuzzy spacetime from a null-surface version of GR
Abstract
The null-surface formulation of general relativity -- recently introduced -- provides novel tools for describing the gravitational field, as well as a fresh physical way of viewing it. The new formulation provides ``local'' observables corresponding to the coordinates of points --- which constitute the spacetime manifold --- in a {\em geometrically defined chart\/}, as well as non-local observables corresponding to lightcone cuts and lightcones. In the quantum theory, the spacetime point observables become operators and the spacetime manifold itself becomes ``quantized'', or ``fuzzy''. This novel view may shed light on some of the interpretational problems of a quantum theory of gravity. Indeed, as we discuss briefly, the null-surface formulation of general relativity provides (local) geometrical quantities --- the spacetime point observables --- which are candidates for the long-sought physical operators of the quantum theory.
Cite
@article{arxiv.gr-qc/9603061,
title = {Fuzzy spacetime from a null-surface version of GR},
author = {S. Frittelli and C. N. Kozameh and E. T. Newman and C. Rovelli and R. S. Tate},
journal= {arXiv preprint arXiv:gr-qc/9603061},
year = {2010}
}
Comments
17 pages, LateX, iopl styles (ioplppt.sty, iopl12.sty), amssym.def, amssym.tex. Invited contribution to the Class. Quantum Grav. special issue dedicated to Andrzej Trautman