What question did this study set out to answer?

The study aims to establish a variational principle that minimizes the spread of gauge couplings for optimal convergence.

April 22, 2026Open Access

Gauge Balance Law: A Variational Principle for Gauge Coupling Convergence

Key Points

The study aims to establish a variational principle that minimizes the spread of gauge couplings for optimal convergence.
Introduced the Gauge Balance Law as a variational principle.
Validated the approach using 1-loop and extended to 2-loop analysis.
Discussed numerical validation and phenomenological implications for collider searches.
Demonstrated that the minimizer satisfies a second-difference balance condition on effective beta coefficients.
Showed that gauge coupling unification is enhanced through the proposed principle.
Provided a model-independent framework for organizing gauge couplings.

Abstract

We introduce the Gauge Balance Law, a variational principle that governs the optimal convergence of gauge couplings. Defining the spread Δ (Q) =max (αᵢ^-1) −min (αᵢ^-1), we show that its minimizer Q* satisfies a second-difference balance condition on effective beta coefficients, B (Q*) =b₁^eff+b₃^eff−2b₂^eff≈0. We provide an exact 1-loop proof using the max–min functional, extend to 2-loop via local linearization, and validate numerically. Phenomenological implications for model building and collider searches are discussed. Gauge coupling unification is a central theme in high-energy physics. We propose a model-independent organizing principle based on minimizing the spread of inverse couplings.

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Cite This Study

sree Debasish Dasgupta (Thu,) studied this question.

synapsesocial.com/papers/69e865926e0dea528ddea160 https://doi.org/https://doi.org/10.5281/zenodo.19660145

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