Dynamical sequences: closure properties and automatic identity proving
Abstract
Given an algebraically closed field , a dynamical sequence over is a -valued sequence of the form , where and are rational maps defined over , and is a point whose forward orbit avoids the indeterminacy loci of and . Many classical sequences from number theory and algebraic combinatorics fall under this dynamical framework, and we show that the class of dynamical sequences enjoys numerous closure properties and encompasses all elliptic divisibility sequences, all Somos sequences, and all - and -finite sequences for all , as defined by Jim\'enez-Pastor, Nuspl, and Pillwein. We also give an algorithm for proving that two dynamical sequences are identical and illustrate how to use this algorithm by showing how to prove several classical combinatorial identities via this method.
Cite
@article{arxiv.2602.07576,
title = {Dynamical sequences: closure properties and automatic identity proving},
author = {Jason P. Bell and Yuxuan Sun},
journal= {arXiv preprint arXiv:2602.07576},
year = {2026}
}
Comments
21 pages