Noncommutative geometric regularization

15 October 1996

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

Vol. 54 (8) , 5174-5178
https://doi.org/10.1103/physrevd.54.5174

Abstract

Studies in string theory and in quantum gravity suggest the existence of a finite lower bound to the possible resolution of lengths which, quantum theoretically, takes the form of a minimal uncertainty in positions

Δ x_{0}

. A finite minimal uncertainty in momenta

Δ p_{0}

has been motivated from the absence of plane waves on generic curved spaces. Both effects can be described as small noncommutative geometric features of space-time. In a path integral approach to the formulation of field theories on noncommutative geometries, we can now generally prove IR regularization for the case of noncommutative geometries which imply minimal uncertainties

Δ p_{0}

in momenta.

Keywords

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Version 1, 1996-02-21, ArXiv (Unconfirmed version)

This publication has 9 references indexed in Scilit:

Spacetime quantization induced by classical gravity
Published by Elsevier ,2002
Maximal localization in the presence of minimal uncertainties in positions and in momenta
Journal of Mathematical Physics, 1996
Hilbert space representation of the minimal length uncertainty relation
Physical Review D, 1995
QUANTUM GRAVITY AND MINIMUM LENGTH
International Journal of Modern Physics A, 1995
Quantum groups and quantum field theory with nonzero minimal uncertainties in positions and momenta
Czechoslovak Journal of Physics, 1994
Uncertainty relation in quantum mechanics with quantum group symmetry
Journal of Mathematical Physics, 1994
The algebraic structure of the generalized uncertainty principle
Physics Letters B, 1993
Can spacetime be probed below the string size?
Physics Letters B, 1989
Small-scale structure of spacetime as the origin of the gravitational constant
Physical Review D, 1977