Orthogonal eigenvectors and singular vectors of tensors

Abstract

The spectral theorem says that a real symmetric matrix has an orthogonal basis of eigenvectors and that, for a matrix with distinct eigenvalues, the basis is unique (up to signs). In this paper, we study the symmetric tensors with an orthogonal basis of eigenvectors and show that, for a generic such tensor, the orthogonal basis is unique. This resolves a conjecture by Mesters and Zwiernik. We also study the non-symmetric setting. The singular value decomposition says that a real matrix has an orthogonal basis of singular vector pairs and that, for a matrix with distinct singular values, the basis is unique (up to signs). We describe the tensors with an orthogonal basis of singular vectors and show that a generic such tensor has a unique orthogonal basis, with one exceptional format: order four binary tensors. We use these results to propose a new tensor decomposition that generalizes an orthogonally decomposable decomposition and specializes the Tucker decomposition.