Dynamics of mode entanglement in a system of cavities coupled with a chiral mirror

We present a simple non-hermitian model to describe the phenomenon of asymmetric tunneling between two energy-degenerate sites coupled by a non-reciprocal interaction without dissipation. The system was described using a biorthogonal family of energy eigenvectors, the dynamics of the system was determined by the Schrödinger equation, and unitarity was effectively restored by proper normalization of the state vectors. The results show that the tunneling rates are indeed asymmetrical in this model, leading to an equilibrium that displays unequal occupation of the degenerate systems even in the absence of external interactions.

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Quantum interference induced photon localization and delocalization in Kerr-type nonlinear cavities

Meher¹,

Sivakumar²

2016

J. Opt. Soc. Am. B

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We study photon localisation and delocalisation in a system of two nonlinear cavities with intensitydependent coupling. It is shown that complete localisation or delocalisation is possible for proper choices of the strengths of nonlinearity, detuning and inter-cavity coupling. Role of the relative phase in the initial superposition in attaining localisation and delocalisation is discussed. Effects of dissipation and decoherence are considered and the use of quantum interference in reducing dissipation is explored. Many of the features of the system are shown to be the consequences of quantum interference.

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Dynamics of mode entanglement in a system of cavities coupled with a chiral mirror

Cited by 5 publications

References 48 publications

Nonreciprocal behaviour between photon and phonon in coupled optomechanical systems

Nonreciprocal behaviour between photon and phonon in coupled optomechanical systems

Non-Hermitian model for asymmetric tunneling

Quantum interference induced photon localization and delocalization in Kerr-type nonlinear cavities

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