On the Field Isomorphism Problem for the Family of Simplest Quartic Fields

David L. Pincus, Lawrence C. Washington

Type: Preprint

Publication Date: 2024-06-14

Citations: 0

DOI: https://doi.org/10.48550/arxiv.2406.10414

Abstract

Deciding whether or not two polynomials have isomoprhic splitting fields over the rationals is the Field Isomorphism Problem. We consider polynomials of the form $f_n(x) = x^4-nx^3-6x^2+nx+1$ with $n \neq 3$ a positive integer and we let $K_n$ denote the splitting field of $f_n(x)$; a `simplest quartic field'. Our main theorem states that under certain hypotheses there can be at most one positive integer $m \neq n$ such that $K_m=K_n$. The proof relies on the existence of squares in recurrent sequences and a result of J.H.E. Cohn [3]. These sequences allow us to establish uniqueness of the splitting field under additional hypotheses in Section (5) and to establish a connection with elliptic curves in Section (6).

Locations

arXiv (Cornell University) - View - PDF

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