The stabilizer for n-qubit symmetric states

Abstract

The stabilizer group for an n-qubit state φ is the set of all invertible local operators (ILO) g=g1 g2 ·s gn, gi∈ GL(2,C) such that φ=gφ. Recently, G. Gour et al. GKW presented that almost all n-qubit state own a trivial stabilizer group when n 5. In this article, we consider the case when the stabilizer group of an n-qubit symmetric pure state is trivial. First we show that the stabilizer group for an n-qubit symmetric pure state φ is nontrivial when n 4. Then we present a class of n-qubit symmetric states φ with the trivial stabilizer group. At last, we prove that an n-qubit symmetric pure state owns a trivial stabilizer group when its diversity number is bigger than 5, which confirms the main result of GKW partly.