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Hauptverfasser: da Silva, Vinícius Barros, Vieira, João Peres, Leonel, Edson Denis
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2412.01916
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author da Silva, Vinícius Barros
Vieira, João Peres
Leonel, Edson Denis
author_facet da Silva, Vinícius Barros
Vieira, João Peres
Leonel, Edson Denis
contents Recently, the covariant formulation of the geometric bifurcation theory, developed in a previous paper, has been applied to two elementary problems: the study of limit cycles of dynamical systems and the second part of Hilbert's sixteenth problem. First, it has been shown that dynamical systems with more than one limit cycle are understood to be those in which the scalar curvature $\mbox{R}$ is positive and its magnitude diverges to infinity at different singular points. In the second, it has been demonstrated that $n$th-degree polynomial systems have the maximum number of $2(n-1)(4(n-1)-2)$ limit cycles with their relative positions determined by the singularities of the magnitude of $\mbox{R}$, thus providing a successful response to the original Hilbert's challenge. It is the purpose of this letter to point out that Buzzi and Novaes's note is incorrect and leads to erroneous results as an immediate consequence of their superficial reading of our work, the omission of critical aspects of the GBT to induce doubt, and reliance on incorrect assumptions or interpretations that deviate from those established in the framework of GBT.
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spellingShingle On the Defense of the Recent Solution to Hilbert's Sixteenth Problem: Clarifying Misinterpretations and the Incorrect Conclusions in Buzzi and Novaes's note
da Silva, Vinícius Barros
Vieira, João Peres
Leonel, Edson Denis
Dynamical Systems
Recently, the covariant formulation of the geometric bifurcation theory, developed in a previous paper, has been applied to two elementary problems: the study of limit cycles of dynamical systems and the second part of Hilbert's sixteenth problem. First, it has been shown that dynamical systems with more than one limit cycle are understood to be those in which the scalar curvature $\mbox{R}$ is positive and its magnitude diverges to infinity at different singular points. In the second, it has been demonstrated that $n$th-degree polynomial systems have the maximum number of $2(n-1)(4(n-1)-2)$ limit cycles with their relative positions determined by the singularities of the magnitude of $\mbox{R}$, thus providing a successful response to the original Hilbert's challenge. It is the purpose of this letter to point out that Buzzi and Novaes's note is incorrect and leads to erroneous results as an immediate consequence of their superficial reading of our work, the omission of critical aspects of the GBT to induce doubt, and reliance on incorrect assumptions or interpretations that deviate from those established in the framework of GBT.
title On the Defense of the Recent Solution to Hilbert's Sixteenth Problem: Clarifying Misinterpretations and the Incorrect Conclusions in Buzzi and Novaes's note
topic Dynamical Systems
url https://arxiv.org/abs/2412.01916