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Abstract

Multi-invariants are local unitary invariants of state replicas introduced as potential new probes of multipartite entanglement and correlations in quantum many-body systems. In this paper, we investigate two multi-invariants for tripartite pure states, namely multi-entropy and dihedral invariant. We compute the (genuine) multi-entropy for groundstates of Lifshitz theories, and obtain its analytical continuation to noninteger values of R\'enyi index. We show that the genuine multi-entropy can be expressed in terms of mutual information and logarithmic negativity. For general tripartite pure states, we demonstrate that dihedral invariants are directly related to R\'enyi reflected entropies. In particular, we show that the dihedral permutations of replicas are equivalent to the reflected construction, or alternatively to the realignment of density matrices.