Authors:	T. Van Vaerenbergh, M. Fiers, J. Dambre, P. Bienstman
Title:	Efficient simulation of optical nonlinear cavity circuits
Format:	International Journal
Publication date:	1/2015
Journal/Conference/Book:	Optical and Quantum Electronics
Volume(Issue):	47(6) p. 1471-1476
DOI:	10.1007/s11082-015-0123-4
Citations:	6 (Dimensions.ai - last update: 17/11/2024) 5 (OpenCitations - last update: 27/6/2024) Look up on Google Scholar
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Abstract

Recently, we proposed a node-based framework that can be used to simulate large circuits of nonlinear photonic components both in the time-domain and in the frequency-domain. In that framework, components are described using a flexible and very general ‘node’-definition, allowing to simulate circuits that contain a wide variety of components with different physical effects. In this paper, we extend the node-definition of this framework such that the linear coupling between access waveguides and resonance states in optical resonators can be more explicitly incorporated, reducing the simulation time in large-scale cavity circuits.

Related Research Topics

• Caphe: Circuit-level time-and frequency domain modeling tool (2010-2015)

Related Projects

• ERC-StG: NaResCo (Novel paradigms for massively parallel nanophotonic information processing: photonics reservoir computing)