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Paper detail

Optical non-Hermitian para-Fermi oscillators

We present a proposal for the optical simulation of para-Fermi oscillators in arrays of coupled waveguides. We use a representation that arises as a deformation of the $su(2)$ algebra. This provides us with a set of chiral and a zero-energy-like normal modes. The latter is its own chiral pair and suggest the addition of controlled losses/gains following a pattern defined by parity. In these non-Hermitian para-Fermi oscillators, the analog of the zero-energy mode presents the largest effective loss/gain and it is possible to tune the system to show sequences of exceptional points and varying effective losses/gains. These arrays can be used for mode suppression or enhancement depending on the use of loss or gain, in that order. We compare our coupled mode theory predictions with finite element method simulations to good agreement.

preprint2019arXivOpen access
S. Rodríguez-WaltonB. Jaramillo ÁvilaB. M. Rodríguez-Lara
physics.optics
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S. Rodríguez-WaltonB. Jaramillo ÁvilaB. M. Rodríguez-Lara

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