Some diophantine equations of the form $x^n + y^n = z^m$
From MaRDI portal
Publication:4236036
DOI10.4064/aa-86-3-193-205zbMath0930.11017OpenAlexW827068966MaRDI QIDQ4236036
Publication date: 14 February 2000
Published in: Acta Arithmetica (Search for Journal in Brave)
Full work available at URL: https://eudml.org/doc/207189
Elliptic curves over global fields (11G05) [https://portal.mardi4nfdi.de/w/index.php?title=+Special%3ASearch&search=%22Curves+of+arbitrary+genus+or+genus+%28%0D%0Ae+1%29+over+global+fields%22&go=Go Curves of arbitrary genus or genus ( e 1) over global fields (11G30)] Higher degree equations; Fermat's equation (11D41)
Related Items (11)
Asymptotic Fermat for signatures \((r,r,p)\) using the modular approach ⋮ Asymptotic Fermat for signatures (p,p,2)$(p,p,2)$ and (p,p,3)$(p,p,3)$ over totally real fields ⋮ Determination of Gaussian Integer Zeroes of F(x,z)=2x4−z3 ⋮ On the Diophantine equation \(X^{2N}+2^{2\alpha}5^{2\beta}p^{2\gamma}=Z^5\) ⋮ Jeśmanowicz' conjecture on exponential Diophantine equations ⋮ Hyperelliptic curves and newform coefficients ⋮ Arithmetic of elliptic curves and diophantine equations ⋮ Rigid local systems, Hilbert modular forms, and Fermat's last theorem ⋮ Recipes to Fermat-type equations of the form \(x^r + y^r =Cz^p\) ⋮ A conjecture concerning the pure exponential Diophantine equation \(a^x+b^y= c^z\) ⋮ Rational periodic points of xd + c and Fermat–Catalan equations
This page was built for publication: Some diophantine equations of the form $x^n + y^n = z^m$
