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- Title
Identity for scalar‐valued functions of tensors and its applications to energy–momentum tensors in classical field theories and gravity.
- Authors
Struckmeier, Jürgen; van de Venn, Armin; Vasak, David
- Abstract
We prove a theorem on scalar‐valued functions of tensors, where "scalar" refers to absolute scalars as well as relative scalars of weight w. The present work thereby generalizes an identity referred to earlier by Rosenfeld in his publication "On the energy–momentum tensor". The theorem provides a (1,1)‐tensor identity which can be regarded as the tensor analogue of the identity following from Euler's theorem on homogeneous functions. The remarkably simple identity is independent of any internal symmetries of the constituent tensors, providing a powerful tool for deriving relations between field‐theoretical expressions and physical quantities. We apply the identity especially for analyzing the metric and canonical energy–momentum tensors of matter and gravity and the relation between them. Moreover, we present a generalized Einstein field equation for the arbitrary version of vacuum space–time dynamics—including torsion and non‐metricity. The identity allows to formulate an equivalent representation of this equation. Thereby the conjecture of a zero‐energy universe is confirmed.
- Subjects
EULER theorem; TENSOR fields; EINSTEIN field equations; GRAVITY; PHYSICAL constants; TORSION
- Publication
Astronomische Nachrichten, 2023, Vol 344, Issue 6, p1
- ISSN
0004-6337
- Publication type
Article
- DOI
10.1002/asna.20220074