What does this research mean for the field?

General relativity can be derived as an effective theory from a single fundamental axiom related to the universe's critical state, leading to results consistent with experimental findings in weak-field gravity. Novelty: ClaimNovelty.NOVEL_FINDING. Consensus alignment: ConsensusAlignment.NEUTRAL.

What question did this study set out to answer?

The aim is to derive general relativity from a unified axiom related to a critical state of the universe.

March 13, 2026Open Access

From UD Theory to General Relativity: A Unified Derivation of Gravitational Theory

Key Points

The aim is to derive general relativity from a unified axiom related to a critical state of the universe.
Develops an axiom based on mutual containment in a critical state
Applies the principle of least action for dynamical equations
Establishes a scalar-tensor form in the effective action
Derives Einstein equations through metric variation
Examines results in the weak-field static limit
Successfully reduces the effective action to Einstein's equations
Finds parameter γ − 1 consistent with Newtonian gravity
Identifies similarities with experimental results in gravitational observations

Abstract

This paper derives general relativity as an effective theory in the macroscopic limit from a single fundamental axiom. The axiom is based on the universe originating from the critical state U = D, and through the logical necessity of “mutual containment”, the four-aspect structure UU , UD, DD, DU is derived. From the total normalization axiom and the principle of least action, the dynamical equations of UD theory are established. In the macroscopic limit, ignoring UD and DU , and deffning the scalar ffeld ϕ = C/E, the effective action reduces to a scalar-tensor form. Variation with respect to the metric yields the Einstein equations. In the weak-ffeld static limit, the theory reduces to Newtonian gravity and gives the post-Newtonian parameter γ − 1 ≈ −2.5 × 10 −6 , consistent with experimental results.

From UD Theory to General Relativity: A Unified Derivation of Gravitational Theory

Key Points

Abstract

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