Diophantine equations: a systematic approach
Abstract
This paper initiates a novel research direction in the theory of Diophantine equations: define an appropriate version of the equation's size, order all polynomial Diophantine equations starting from the smallest ones, and then solve the equations in that order. By combining a new computer-aided procedure with human reasoning, we solved the Hilbert's tenth problem for all polynomial Diophantine equations of size less than , where the size is defined in (Zidane, 2018). In addition, we solved this problem for all equations of size equal to , with a single exception. Further, we solved the Hilbert's tenth problem for all two-variable Diophantine equations of size less than , all symmetric equations of size less than , all three-monomial equations of size less than , and, in each category, identified the explicit smallest equations for which the problem remains open. As a result, we derived a list of equations that are very simple to write down but which are apparently difficult to solve. As we know from the example of Fermat's Last Theorem, such equations have a potential to stimulate the development of new methods in number theory.
Cite
@article{arxiv.2108.08705,
title = {Diophantine equations: a systematic approach},
author = {Bogdan Grechuk},
journal= {arXiv preprint arXiv:2108.08705},
year = {2022}
}
Comments
36 pages