Weighted Fruit Diophantine Equations and Hyperelliptic Curves

Abstract

We study the weighted fruit Diophantine equation axd - c(m2y2+n2z2) + xyz - b = 0, generalising previous work by Majumdar--Sury, Vaishya--Sharma, and Prakash--Chakraborty. Subject to specific hypotheses on the parameters, our main result shows that for any prime l 3 4 and b = a (2 c m n)d - l\, cst2q, the above equation has no integer solutions except for certain residue classes of x modulo 4l. An analogous result also holds when l is replaced by an odd power of l in the definition of b. We prove some insolvability results for l=-1. By applying the main result to the small values of l, such as l ∈ \3, 7, 11, 19\, we explicitly determine the exceptional residue classes outside of which the equation has no solutions. In particular, for l = 3, this yields complete insolvability, and weakening these hypotheses still yields non-existence results, though with specific coprimality restrictions on any possible solutions. We also consider a more general variant of the above Diophantine equation and provide some insolvability results. Subsequently, we establish bounds for the positive solutions of the aforementioned equation. Finally, by associating a family of hyperelliptic curves with the equation under consideration and applying Grant's analogue of the Nagell--Lutz theorem, we translate these insolvability results into results about their rational torsion points.