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Main Author: Berezin, Sergey Viktorovich
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.18643
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author Berezin, Sergey Viktorovich
author_facet Berezin, Sergey Viktorovich
contents We study the ultra-radical $\sqrt[{n;a;b}]{x}$, the multi-valued solution to $y^{a}=1+a x y^{b}$. Inside the convergence radius $|x|<R$, every branch is given by a Master-J power series; for $|x|\ge R$, analytic continuation requires switching to one of two conjugate series. We introduce a deterministic geometric criterion that selects, for each branch index $n$, the correct conjugate series, thereby eliminating heuristic search and guaranteeing branch continuity across $|x|=R$. Key finding: Only the principal branch ($n=0$) remains continuous when the parameters $a$, $b$, and $x$ vary smoothly. This includes the critical limits $a\to0$ (transition to an exponential equation) and $b\to0$ (transition to a binomial root), where the principal branch converges to the corresponding classical solution. In contrast, branches with $n\neq0$ exhibit oscillatory divergence as $a\to0$ and lose their identity in these limits. This structural continuity singles out the principal branch for applications where parameters may vary with the system's state, such as in nonlinear media with field-dependent exponents or adaptive dynamical systems.
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spellingShingle The Ultra-Radical: Analytic Continuation, Branching, and Stability of the Principal Branch
Berezin, Sergey Viktorovich
Classical Analysis and ODEs
We study the ultra-radical $\sqrt[{n;a;b}]{x}$, the multi-valued solution to $y^{a}=1+a x y^{b}$. Inside the convergence radius $|x|<R$, every branch is given by a Master-J power series; for $|x|\ge R$, analytic continuation requires switching to one of two conjugate series. We introduce a deterministic geometric criterion that selects, for each branch index $n$, the correct conjugate series, thereby eliminating heuristic search and guaranteeing branch continuity across $|x|=R$. Key finding: Only the principal branch ($n=0$) remains continuous when the parameters $a$, $b$, and $x$ vary smoothly. This includes the critical limits $a\to0$ (transition to an exponential equation) and $b\to0$ (transition to a binomial root), where the principal branch converges to the corresponding classical solution. In contrast, branches with $n\neq0$ exhibit oscillatory divergence as $a\to0$ and lose their identity in these limits. This structural continuity singles out the principal branch for applications where parameters may vary with the system's state, such as in nonlinear media with field-dependent exponents or adaptive dynamical systems.
title The Ultra-Radical: Analytic Continuation, Branching, and Stability of the Principal Branch
topic Classical Analysis and ODEs
url https://arxiv.org/abs/2512.18643