Gravitational Coupling from Active Gravity
Abstract
We attempt to construct a gravitational coupling by pre-selecting an energy-momentum tensor as the source for gravitational field. The energy-momentum tensor we take is a recently derived new expression motivated by joint localization of energy and momentum in quantum measurement. This energy-momentum tensor differs from the traditional canonical and symmetric ones, and the theory we obtain is of an Einstein-Cartan type, but derived from a minimal coupling of a Lagrangian with second-derivative, and leads to additional interaction between torsion and matter, including the scalar field. For the scalar field, the theory can also be derived in the Riemann space-time by a non-minimal coupling. Our study gives hint on more general tests of general relativistic effects.
Cite
@article{arxiv.1702.02921,
title = {Gravitational Coupling from Active Gravity},
author = {Tao Lei and Zi-Wei Chen and Zhen-Lai Wang and Xiang-Song Chen},
journal= {arXiv preprint arXiv:1702.02921},
year = {2017}
}
Comments
12 pages, no figure