On Weil Polynomials of Hyperelliptic Curves over Finite Fields of Characteristic 2

Abstract

We present new conditions which obstruct the existence of hyperelliptic Jacobians in isogeny classes of abelian varieties over finite fields of characteristic 2. We show that Weil polynomials of Jacobians cannot have coefficients in certain residue classes modulo 2, extending the approach of Costa et al. in arXiv:2002.02067. We prove that for 3- and 4-dimensional abelian varieties over F2n, as n →∞, the parities of the Weil coefficients asymptotically equidistribute. Further, we show that these obstructions disqualify 12 of all 3-dimensional isogeny classes and 58 of all 4-dimensional isogeny classes from containing a hyperelliptic Jacobian. Additionally, we present a practical enumeration algorithm which generates all isomorphism classes of hyperelliptic curves of arbitrary genus over almost any finite field of characteristic 2 based on existing algorithms over F2. Our analysis shows the runtime to be O(2n(2g-1)) expected, and O(2n(2g+2)) worst case. This runtime improvement renders the algorithm practical for fields other than F2.