Establishment of the Riemannian structure of space-time by classical means
From MaRDI portal
Publication:1923990
DOI10.1007/BF02302270zbMath0860.53072WikidataQ115392565 ScholiaQ115392565MaRDI QIDQ1923990
Publication date: 21 April 1997
Published in: International Journal of Theoretical Physics (Search for Journal in Brave)
Applications of differential geometry to physics (53Z05) Einstein's equations (general structure, canonical formalism, Cauchy problems) (83C05) Relativistic gravitational theories other than Einstein's, including asymmetric field theories (83D05)
Related Items (2)
On a new condition distinguishing Weyl and Lorentz space-times ⋮ THE PHYSICAL FOUNDATIONS FOR THE GEOMETRIC STRUCTURE OF RELATIVISTIC THEORIES OF GRAVITATION: FROM GENERAL RELATIVITY TO EXTENDED THEORIES OF GRAVITY THROUGH EHLERS–PIRANI–SCHILD APPROACH
Cites Work
- Unnamed Item
- An axiomatic basis of space-time theory. I: Construction of a causal space with coordinates
- Wave fields in Weyl spaces and conditions for the existence of a preferred pseudo-Riemannian structure
- Characterization of standard clocks by means of light rays and freely falling particles
- Measurement of proper time in a Weyl space
- An axiomatic basis of space-time theory. III: Construction of a differentiable manifold
- On a new condition distinguishing Weyl and Lorentz space-times
- The conformal structure of space-time in a constructive axiomatics based on elements of quantum mechanics
- Remarks concerning the notion of free fall in axiomatic space-time theory
- An axiomatic basis of space-time theory. II: Construction of a \(C^ 0\)- manifold
- Reasons for a physical field to obey linear partial differential equations
- Constructive axiomatic approach to spacetime torsion
- Observer fields in Weylian spacetime models
- Establishing the Riemannian structure of space-time by means of light rays and free matter waves
This page was built for publication: Establishment of the Riemannian structure of space-time by classical means
