What question did this study set out to answer?

This work aims to analyze the Radial Acceleration Relation (RAR) to understand its structural properties and deviations.

February 27, 2026Open Access

Structural Rigidity of the Radial Acceleration Relation Revealed by Offset-Controlled Analysis

Key Points

This work aims to analyze the Radial Acceleration Relation (RAR) to understand its structural properties and deviations.
Utilized offset-controlled residual analysis
Focused on the highest-quality (Q=1) subset of the SPARC database
Separated galaxy-level normalization modes from acceleration-related deviations
Performed normalization control to suppress residual curvature
Most apparent scatter in the RAR behaves as a rigid normalization offset
Different interpolation functions become statistically indistinguishable after normalization
Empirical constraints are provided relevant to modified gravity and ΛCDM models

Abstract

This work presents an offset-controlled residual analysis of the Radial Acceleration Relation (RAR) using the highest-quality (Q=1) subset of the SPARC database. By subtracting per-galaxy median residuals, we separate galaxy-level normalization modes from acceleration-dependent structural deviations. The analysis shows that a substantial fraction of the apparent scatter behaves as a rigid normalization offset rather than deformation of the functional form. After normalization control, residual curvature is strongly suppressed and different interpolation functions become statistically indistinguishable within current precision. The results reinforce the structural rigidity of the RAR and provide empirical constraints relevant to both modified gravity and ΛCDM baryon–halo coupling interpretations.

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