Diophantine equations with Euler polynomials
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In this paper we determine possible decompositions of Euler polynomials $E_k(x)$, i.e. possible ways of writing Euler polynomials as a functional composition of polynomials of lower degree. Using this result together with the well-known criterion of Bilu and Tichy, we prove that the Diophantine equation $$-1^k +2 ^k - \cdots + (-1)^{x} x^k=g(y),$$ with $g\in \mathbb{Q}[X]$ of degree at least $2$ and $k\geq 7$, has only finitely many integers solutions $x, y$ unless polynomial $g$ can be decomposed in ways that we list explicitly.
to appear in Acta Arithmetica
- Graz University of Technology Austria
- University of Miskolc Hungary
Mathematics - Number Theory, Primary 11D41, Secondary 11B68, FOS: Mathematics, Number Theory (math.NT)
Mathematics - Number Theory, Primary 11D41, Secondary 11B68, FOS: Mathematics, Number Theory (math.NT)
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