March 3, 2026Open Access

Dimensional Admissibility Predicts Invariant Frequency Anomalies in Electromagnetic Resonators

Key Points

The predicted frequency anomaly is invariant under cavity geometry and material composition, indicating robustness.
A specific dimensionless closure ratio Φ_c = 1 ± 10⁻⁶ serves as a target for testing the anomaly.
Assessment using a registered blind analysis protocol ensures stringent statistical power and multiple-testing controls.
This work highlights the potential of dimensional admissibility as a physical constraint in wave mechanics.

Abstract

This preprint presents a parameter-free, falsifiable prediction of an invariant frequencyanomaly in electromagnetic resonators derived from dimensional admissibility constraintswithin the Quantized Dimensional Ledger (QDL) framework. The work specifies an explicit dimensionless closure ratio Φc = 1 ± 10⁻⁶, provides acanonical microwave cavity test case with concrete numeric targets, and defines apreregistered blind analysis protocol with statistical power and multiple-testing controls. The predicted anomaly is invariant under cavity geometry and material composition and isnot expected within standard electrodynamics or cavity QED. The paper proposes a clean tabletop test of dimensional admissibility as a physicalconstraint and is undergoing journal peer review.

Dimensional Admissibility Predicts Invariant Frequency Anomalies in Electromagnetic Resonators

Key Points

Abstract

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