arXiv:1703.04950 Abstract | arXiv Analytics

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Complete solution of the Diophantine Equation $x^{2}+5^{a}\cdot 11^{b}=y^{n}$

Published 2017-03-15Version 1

The title equation is completely solved in integers $(n,x,y,a,b)$, where $n\geq 3$, $\gcd(x,y)=1$ and $a,b\geq 0$. The most difficult stage of the resolution is the explicit resolution of a quintic Thue-Mahler equation. Since it is for the first time -to the best of our knowledge- that such an equation is solved in the literature, we make a detailed presentation of the resolution; this gives our paper also an expository character.

Comments: 35 pages

Journal: published in the Bull. Hellenic Math. Soc. 60 (2016), 125-151: http://bulletin.math.uoc.gr/vol/60/60-125-151.pdf

Categories: math.NT

Subjects: 11D61, 11D59, 11D41, 11J86, 11Y40

Keywords: diophantine equation, complete solution, quintic thue-mahler equation, first time, expository character

Tags: journal article

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