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We calculate the spectral properties of two related families of non-Hermitian free-particle quantum chains with N-multispin interactions (N=2, 3,. . . ). The first family have a Z (N) symmetry and are described by free parafermions. The second have a U (1) symmetry and are generalizations of XX quantum chains described by free fermions. The eigenspectra of both free-particle families are formed by the combination of the same pseudo-energies. The models have a multicritical point with dynamical critical exponent z=1. The finite-size behavior of their eigenspectra, as well as the entanglement properties of their ground-state wave function, indicate the models are conformally invariant. The models with open and periodic boundary conditions show quite distinct physics due to their non-Hermiticity. The models defined with open boundaries have a single conformal invariant phase, while the XX multispin models show multiple phases with distinct conformal central charges in the periodic case.
Alcaraz et al. (Tue,) studied this question.