Rotation-time symmetry in bosonic systems and the existence of exceptional points in the absence of PT symmetry

Abstract

We study symmetries of open bosonic systems in the presence of laser pumping. Non-Hermitian Hamiltonians describing these systems can be parity-time (PT) symmetric in special cases only. Systems exhibiting this symmetry are characterised by real-valued energy spectra and can display exceptional points, where a symmetry-breaking transition occurs. We demonstrate that there is a more general type of symmetry, i.e., rotation-time (RT) symmetry. We observe that RT-symmetric non-Hermitian Hamiltonians exhibit real-valued energy spectra which can be made singular by symmetry breaking. To calculate the spectra of the studied bosonic non-diagonalisable Hamiltonians we apply diagonalisation methods based on bosonic algebra. Finally, we list a versatile set rules allowing to immediately identifying or constructing RT-symmetric Hamiltonians. We believe that our results on the RT-symmetric class of bosonic systems and their spectral singularities can lead to new applications inspired by those of the PT-symmetric systems.