An $n\times n$ complex matrix $M$ with entries in the $k^{\textrm{th}}$ roots of unity which satisfies $MM^{\ast} = nI_{n}$ is called a Butson Hadamard matrix. While a matrix with entries in the $k^{\textrm{th}}$ roots typically does not have an eigenvector with entries in the same set, such vectors and their generalisations turn out to have multiple applications. A bent vector for $M$ satisfies $M{\bf x} = \lambda {\bf y}$ where ${\bf x}$ and ${\bf y}$ have entries in the $k^{\textrm{th}}$ roots of unity. In this paper we study in particular the special case that ${\bf y} = \overline{\bf x}$, which we call a conjugate self-dual bent vector for $M$. Using techniques from algebraic number theory, we prove some order conditions and non-existence results for self-dual and conjugate self-dual bent vectors; using tensor constructions and Bush-type matrices we give explicit examples. We conclude with an application to the covering radius of certain non-linear codes generalising the Reed Muller codes.
翻译:暂无翻译