Some experiments with Ramanujan-Nagell type Diophantine equations

Abstract

Stiller proved that the Diophantine equation x2+119=15· 2n has exactly six solutions in positive integers. Motivated by this result we are interested in constructions of Diophantine equations of Ramanujan-Nagell type x2=Akn+B with many solutions. Here, A,B∈ (thus A, B are not necessarily positive) and k∈≥ 2 are given integers. In particular, we prove that for each k there exists an infinite set S containing pairs of integers (A, B) such that for each (A,B)∈ S we have (A,B) is square-free and the Diophantine equation x2=Akn+B has at least four solutions in positive integers. Moreover, we construct several Diophantine equations of the form x2=Akn+B with k>2, each containing five solutions in non-negative integers. %For example the equation y2=130· 3n+5550606 has exactly five solutions with n=0, 6, 11, 15, 16. We also find new examples of equations x2=A2n+B having six solutions in positive integers, e.g. the following Diophantine equations has exactly six solutions: equation* arrayll x2= 57· 2n+117440512 & n=0, 14, 16, 20, 24, 25, x2= 165· 2n+26404 & n=0, 5, 7, 8, 10, 12. array equation* Moreover, based on an extensive numerical calculations we state several conjectures on the number of solutions of certain parametric families of the Diophantine equations of Ramanujan-Nagell type.