English

Computational progress on the unfair 0-1 polynomial Conjecture

Number Theory 2023-07-17 v1

Abstract

Let c(x)c(x) be a monic integer polynomial with coefficients 00 or 11. Write c(x)=a(x)b(x)c(x) = a(x) b(x) where a(x)a(x) and b(x)b(x) are monic polynomials with non-negative real (not necessarily integer) coefficients. The unfair 0--1 polynomial conjecture states that a(x)a(x) and b(x)b(x) are necessarily integer polynomials with coefficients 00 or 11. Let a(x)a(x) be a candidate factor of a (currently unknown) 0--1 polynomial. We will assume that we know if a coefficient is 00, 11 or strictly between 00 and 11, but that we do not know the precise value of non-integer coefficients. Given this candidate a(x)a(x), this paper gives an algorithm to either find a b(x)b(x) and c(x)c(x) with a(x)b(x)=c(x)a(x) b(x) = c(x) such that b(x)b(x) has non-negative real coefficients and c(x)c(x) has coefficients 00 or 11, or (often) shows that no such c(x)c(x) and b(x)b(x) exist. Using this algorithm, we consider all candidate factors with degree less than or equal to 15. With the exception of 975 candidate factors (out of a possible 7141686 cases), this algorithm shows that there do not exist b(x)b(x) with non-negative real coefficients and c(x)c(x) with coefficients 00 or 11 such that a(x)b(x)=c(x)a(x) b(x) = c(x).

Keywords

Cite

@article{arxiv.2307.07363,
  title  = {Computational progress on the unfair 0-1 polynomial Conjecture},
  author = {Kevin G. Hare},
  journal= {arXiv preprint arXiv:2307.07363},
  year   = {2023}
}
R2 v1 2026-06-28T11:30:31.333Z