Generation Model with Coupled Mode Theory

By yujie guo1; Peter Bermel1; Roman Shugayev1

1. Purdue University

Models generation of an optical comb in a multiple-resonance cavity coupled to a single waveguide, using coupled mode theory to represent linear and nonlinear dynamics

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Version 1.0 - published on 13 Mar 2015

doi:10.4231/D38911R9Q cite this

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    Screen shot of Generation Model with Coupled Mode Theory Web Tool with output as different modes

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Abstract

Frequency combs generated through nonlinear resonant cavities enable a side variety of important applications, including metrology, pulse shaping, and TF modulation. However, predicting the performance of particular designs can be a difficult and time-consuming process, when done through direct finite difference time domain simulations. Here, we introduce a web-based tool on nanoHUB, called ‘cmtcomb3’ that allows us to quickly and easily change design parameters and see the results both numerically and graphically. It enables exploring basic physics, as well as rapid prototyping for specific applications.

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Researchers should cite this work as follows:

  • yujie guo, Peter Bermel, Roman Shugayev (2015), "Generation Model with Coupled Mode Theory," https://nanohub.org/resources/cmtcomb3. (DOI: 10.4231/D38911R9Q).

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