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arXiv:2404.14098 [math.NT]Abstract References Reviews Resources

Asymptotic Fermat's Last Theorem for a family of equations of signature $(2, 2n, n)$

Published 2024-04-22Version 1

In this paper, we study the integer solutions of a family of Fermat-type equations of signature $(2, 2n, n)$, $Cx^2 + q^ky^{2n} = z^n$. We provide an algorithmically testable set of conditions which, if satisfied, imply the existence of a constant $B_{C, q}$ such that if $n > B_{C,q}$, there are no solutions $(x, y, z, n)$ of the equation. Our methods use the modular method for Diophantine equations, along with level lowering and Galois theory.

Comments: 20 pages

Categories: math.NT

Subjects: 11D61, 11D41, 11F80, 11F11

Keywords: asymptotic fermats, galois theory, integer solutions, modular method, diophantine equations

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arXiv:2404.14098 [math.NT]Abstract References Reviews Resources

Asymptotic Fermat's Last Theorem for a family of equations of signature $(2, 2n, n)$

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arXiv:2404.14098 [math.NT]AbstractReferencesReviewsResources

Asymptotic Fermat's Last Theorem for a family of equations of signature $(2, 2n, n)$

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arXiv:2404.14098 [math.NT]Abstract References Reviews Resources