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Autori principali: Bazzanella, Davide, Mancinelli, Mattia, Borghi, Massimo, Bettotti, Paolo, Pavesi, Lorenzo
Natura: Preprint
Pubblicazione: 2021
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Accesso online:https://arxiv.org/abs/2106.05853
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author Bazzanella, Davide
Mancinelli, Mattia
Borghi, Massimo
Bettotti, Paolo
Pavesi, Lorenzo
author_facet Bazzanella, Davide
Mancinelli, Mattia
Borghi, Massimo
Bettotti, Paolo
Pavesi, Lorenzo
contents The Photonic hybRid EleCtromagnetic SolvEr (PRECISE) is a Matlab based library to model large and complex photonics integrated circuits. Each circuit is modularly described in terms of waveguide segments connected through multiport nodes. Linear, nonlinear, and dynamical phenomena are simulated by solving the system of differential equations describing the effect to be considered. By exploiting the steady state approximation of the electromagnetic field within each node device, the library can handle large and complex circuits even on desktop PC. We show that the steady state assumption is fulfilled in a broad number of applications and we compare its accuracy with analytical model (coupled mode theory) and experimental results. PRECISE is highly modular and easily extensible to handle equations different from those already implemented and is, thus, a flexible tool to model the increasingly complex photonic circuits.
format Preprint
id arxiv_https___arxiv_org_abs_2106_05853
institution arXiv
publishDate 2021
record_format arxiv
spellingShingle PRECISE Photonic hybRid EleCtromagnetIc SolvEr
Bazzanella, Davide
Mancinelli, Mattia
Borghi, Massimo
Bettotti, Paolo
Pavesi, Lorenzo
Computational Physics
Optics
The Photonic hybRid EleCtromagnetic SolvEr (PRECISE) is a Matlab based library to model large and complex photonics integrated circuits. Each circuit is modularly described in terms of waveguide segments connected through multiport nodes. Linear, nonlinear, and dynamical phenomena are simulated by solving the system of differential equations describing the effect to be considered. By exploiting the steady state approximation of the electromagnetic field within each node device, the library can handle large and complex circuits even on desktop PC. We show that the steady state assumption is fulfilled in a broad number of applications and we compare its accuracy with analytical model (coupled mode theory) and experimental results. PRECISE is highly modular and easily extensible to handle equations different from those already implemented and is, thus, a flexible tool to model the increasingly complex photonic circuits.
title PRECISE Photonic hybRid EleCtromagnetIc SolvEr
topic Computational Physics
Optics
url https://arxiv.org/abs/2106.05853