Generalized Bose-Hubbard Hamiltonians exhibiting a complete non-Hermitian degeneracy

Abstract

The conventional toy-model constructions of phase diagrams often use various versions of the standard Hermitian Bose-Hubbard Hamiltonians H. These studies were recently extended to cover several non-Hermitian PT-symmetric versions of the model. A key technical merit of the extensions has been found in the existence of Kato's phase-transition-related exceptional-point spectral degeneracies of the Nth order (EPN). In this setting, an ill-conditioned nature of H near its EPN singularity represented a decisive technical obstacle. In our paper we show how the obstacle can be circumvented, leading to a broader class of the eligible models with tridiagonal and symmetric complex Hamiltonians H(N)(z) exhibiting the EPN degeneracies. The implementation of the method (requiring the use of computer-assisted symbolic manipulations at the larger integers N) is illustrated by sampling the real or complex spectra of energies near as well as far from the EPN dynamical regime.