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- Title
Outline for a Quantum Theory of Gravity.
- Authors
Singh, Tejinder P.
- Abstract
By invoking an asymmetric metric tensor, and borrowing ideas from non-commutative geometry, string theory, and trace dynamics, we propose an action function for quantum gravity. The action is proportional to the four-dimensional non-commutative curvature scalar (which is torsion dependent), which is sourced by the Nambu–Goto world-sheet action for a string plus the Kalb–Ramond string action. This 'quantum gravity' is actually a non-commutative classical matrix dynamics, and the only two fundamental constants in the theory are the square of the Planck length and the speed of light. By treating the entity described by this action as a microstate, one constructs the statistical thermodynamics of a large number of such microstates, in the spirit of trace dynamics. Quantum field theory (and ℏ) and quantum general relativity (and G) emerge from the underlying matrix dynamics in the thermodynamic limit. Statistical fluctuations, which are inevitably present about equilibrium, are the source for spontaneous localisation, which drives macroscopic quantum gravitational systems to the classical general relativistic limit. While the mathematical formalism governing these ideas remains to be developed, we hope to highlight here the deep connection between quantum foundations and the sought-for quantum theory of gravity. In the sense described in this article, ongoing experimental tests of spontaneous collapse theories are in fact also tests of string theory!
- Subjects
QUANTUM theory; STRING theory; QUANTUM gravity; PLANCK'S constant; GENERAL relativity (Physics)
- Publication
Zeitschrift für Naturforschung Section A: A Journal of Physical Sciences, 2019, Vol 74, Issue 5, p383
- ISSN
0932-0784
- Publication type
Article
- DOI
10.1515/zna-2019-0027