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Implementing Poincar\'e's `geometric conventionalism' a scalar Lorentz-covariant gravity model is obtained based on gravitationally modified Lorentz transformations (or GMLT). The modification essentially consists of an appropriate…

广义相对论与量子宇宙学 · 物理学 2015-06-25 Jan Broekaert

The nature of 'time', 'space' and 'reality' are to large extent dependent on our interpretation of Special (SRT) and General Relativity Theory (GRT). In SRT essentially two distinct interpretations exist; the "geometrical" interpretation by…

广义相对论与量子宇宙学 · 物理学 2007-05-23 Jan , Broekaert

In special-relativistic physics, spacetime is imbued with a fixed, non-dynamical metric tensor. A path to gravitational theory is to promote this tensor to a genuine dynamical field. An alternative description of special-relativistic…

广义相对论与量子宇宙学 · 物理学 2023-06-09 Tomi S Koivisto , Tom Zlosnik

That preferred-frame theory accounts for special relativity and reduces to it if the gravitation field cancels. Starting from an interpretation of gravity as a pressure force, it is based on just one scalar field. This scalar gives the…

广义相对论与量子宇宙学 · 物理学 2017-08-23 Mayeul Arminjon

The Euclidean interpretation of special relativity which has been suggested by the author is a formulation of special relativity in ordinary 4D Euclidean space-time geometry. The natural and geometrically intuitive generalization of this…

综合物理 · 物理学 2011-01-04 Franz-Guenter Winkler

The validity of the Weak Equivalence Principle relative to a local inertial frame is detailed in a scalar-vector gravitation model with Lorentz-Poincar\'e type interpretation. Given the previously established first Post-Newtonian…

广义相对论与量子宇宙学 · 物理学 2008-11-26 Jan , Broekaert

The theory starts from a tentative interpretation of gravity as Archimedes' thrust exerted on matter at the scale of elementary particles by an imagined perfect fluid ("ether"): the gravity acceleration is expressed by a formula in which…

综合物理 · 物理学 2007-09-05 Mayeul Arminjon

We discuss a class of models for gravity based on a scalar field. The models include and generalize the old approach by Nordstr\"om which predated and in some way inspired General Relativity. The class include also a model that we have…

广义相对论与量子宇宙学 · 物理学 2016-06-22 E. Bittencourt , U. Moschella , M. Novello , J. D. Toniato

The introduction of General Relativity (GR) in 1915 revolutionized our understanding of gravity, but over time, its limitations in explaining phenomena like dark energy, dark matter, and quantum gravity have motivated alternative theories.…

广义相对论与量子宇宙学 · 物理学 2025-07-08 N. S. Kavya

A scalar theory of gravity extending Newtonian gravity to include field energy as its source is developed. The physical implications of the theory are probed through its spherically symmetric (source) solutions. The aim is to demonstrate…

广义相对论与量子宇宙学 · 物理学 2015-06-22 Joel Franklin

Klein-Gordon gravity, 1920s-30s particle physics, and 1890s Neumann-Seeliger modified gravity suggest a "graviton mass term" *algebraic* in the potential. Unlike Nordstr\"om's "massless" theory, massive scalar gravity is invariant under the…

物理学史与哲学 · 物理学 2016-03-21 J. Brian Pitts

In a foregoing paper, gravity has been interpreted as the pressure force exerted on matter at the scale of elementary particles by a perfect fluid. Under the condition that Newtonian gravity must be recovered in the incompressible case, a…

广义相对论与量子宇宙学 · 物理学 2007-05-23 Mayeul Arminjon

We generalize the scale invariant gravity by allowing a negative kinetic energy term for the classical scalar field. This gives birth to a new scalar-tensor theory of gravity, in which the scalar field is in fact an auxiliary field. For a…

高能物理 - 理论 · 物理学 2007-05-23 Shih-Yuin Lin , Kin-Wang Ng

We develop a novel approach to gravity that we call `matrix general relativity' (MGR) or `gravitational chromodynamics' (GCD or GQCD for quantum version). Gravity is described in this approach not by one Riemannian metric (i.e. a symmetric…

高能物理 - 理论 · 物理学 2011-03-31 Ivan G. Avramidi

During the last five decades, gravity, as one of the fundamental forces of nature, has been formulated as a gauge theory of the Weyl-Cartan-Yang-Mills type. The present text offers commentaries on the articles from the most prominent…

广义相对论与量子宇宙学 · 物理学 2022-05-10 Milutin Blagojević , Friedrich W. Hehl

We build a self-consistent relativistic scalar theory of gravitation on a flat Minkowski spacetime from a general field Lagrangian. It is shown that, for parameters that satisfy the Equivalence Principle, this theory predicts the same…

广义相对论与量子宇宙学 · 物理学 2023-05-15 Diogo P. L. Bragança

We present a geometric scalar theory of gravity. Our proposal will be described using the "background field method" introduced by Gupta, Feynman and others as a field theory formulation of general relativity. We analyze previous criticisms…

广义相对论与量子宇宙学 · 物理学 2015-06-12 M. Novello , E. Bittencourt , U. Moschella , E. Goulart , J. M. Salim , J. Toniato

We consider the construction of gauge theories of gravity, focussing in particular on the extension of local Poincar\'e invariance to include invariance under local changes of scale. We work exclusively in terms of finite transformations,…

广义相对论与量子宇宙学 · 物理学 2016-09-30 Anthony Lasenby , Michael Hobson

We develop a generic spacetime model in General Relativity which can be used to build any gravitational model within General Relativity. The generic model uses two types of assumptions: (a) Geometric assumptions additional to the inherent…

广义相对论与量子宇宙学 · 物理学 2021-06-15 Michael Tsamparlis , Andronikos Paliathanasis

We reformulate the general theory of relativity in the language of Riemann-Cartan geometry. We start from the assumption that the space-time can be described as a non-Riemannian manifold, which, in addition to the metric field, is endowed…

广义相对论与量子宇宙学 · 物理学 2015-06-12 J. B. Fonseca-Neto , C. Romero , S. P. G. Martinez
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