On the extensions of the Diophantine triples in Gaussian integers

Abstract

A Diophantine m-tuple is a set of m distinct integers such that the product of any two distinct elements plus one is a perfect square. In this paper we study the extensibility of a Diophantine triple \k-1, k+1, 16k3-4k\ in Gaussian integers Z[i] to a Diophantine quadruple. Similar one-parameter family, \k-1, k+1, 4k\, was studied in Franusi\'c's previous paper, where it was shown that the extension to a Diophantine quadruple is unique (with an element 16k3-4k). The family of the triples of the same form \k-1, k+1, 16k3-4k\ was already studied in rational integers. It appeared as a special case while solving the extensibility problem of Diophantine pair \k-1, k+1\, in which it was not possible to use the same method as in the other cases. As authors (Bugeaud, Dujella and Mignotte) point out, the difficulty appears because the gap between k+1 and 16k3-4k is not sufficiently large. We find the same difficulty here while trying to use Diophantine approximations. Then we partially solve this problem by using linear forms in logarithms.