What does this research mean for the field?

A parameter-free, flat field-theoretic cosmology in an uncurved Minkowski background spacetime resolves the Hubble tension, early galaxy maturation anomalies, and galaxy rotation curves without invoking dark energy or non-baryonic dark matter. Novelty: ClaimNovelty.CONTRADICTORY. Consensus alignment: ConsensusAlignment.CHALLENGES_CONSENSUS.

What question did this study set out to answer?

This research aims to resolve tensions in the standard cosmological model without dark energy or non-baryonic dark matter.

June 18, 2026Open Access

The Zero-G Acceleration of a Free-Fall-Expanding and Zero-Energy Universe

Key Points

This research aims to resolve tensions in the standard cosmological model without dark energy or non-baryonic dark matter.
Utilized a parameter-free, flat field-theoretic cosmology in a Minkowski background.
Applied a two-stage cosmic closure method based on global weightlessness and free-fall energetics.
Employed a temporal Newton-Raphson iteration loop to investigate cosmic chronology.
Calculated the global geometric expansion rate as Hg ≈ 71.99 km s−1Mpc−1 and local measurements as Hlocal ≈ 73.0 km s−1Mpc−1, indicating a hydrodynamic projection of the KBC void underdensity (δ0 ≈ −0.079).
Demonstrated the model replicates the flat rotation curve of Andromeda Galaxy (M31) at ≈ 250 km/s through baryonic scaling.
Identified a relativistic time-dilation peak during cosmic dawn that supports early galaxy maturation.

Abstract

The standard cosmological model (ΛCDM) is increasingly challenged by deep structural tensions,most notably the 5σ divergence in the contemporary expansion rate H0 and the anomalous earlymaturity of galaxies observed by the James Webb Space Telescope (JWST). We present a parameterfree, flat field-theoretic cosmology inside an uncurved Minkowski background spacetime that resolvesthese anomalies without invoking dark energy or non-baryonic dark matter. Utilizing a two-stagecosmic closure method under global weightlessness and free-fall energetics, the model first solves ascale-free, radius-dependent baryonic mass coupling M = M(R) at the present epoch (a = 1.0),uniquely isolating the universal constants q0 ≈ 6.428 and Ωm0 ≈ 0.3188. Second, by freezing theseconstants, the cosmic chronology for the past is driven strictly via a temporal Newton-Raphsoniteration loop where the proper time t(a) acts as the elastic control variable. This framework revealsthat the global geometric expansion rate (Hg ≈ 71.99 km s−1Mpc−1) represents the undisturbedbackground metric, while global CMB measurements naturally capture the time-dilated, mattercoupled trajectory (H1 = H2 = 67.40 km s−1Mpc−1). The remaining gap to local measurements(Hlocal ≈ 73.0 km s−1Mpc−1) is quantitatively shown to be a hydrodynamic projection of the KBCvoid underdensity (δ0 ≈ −0.079). Furthermore, the model accurately replicates the flat rotationcurve of the Andromeda Galaxy (M31) at ≈ 250 km/s via baryonic scaling, and uncovers a massiverelativistic time-dilation peak at a ≈ 0.0698 (z ≈ 13.3) that stretches the physical proper timeduring cosmic dawn, thereby providing the mathematically necessary chronology for early galaxymaturation

The Zero-G Acceleration of a Free-Fall-Expanding and Zero-Energy Universe

Key Points

Abstract

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