BPM-Matlab: an open-source optical propagation ...
Document type :
Compte-rendu et recension critique d'ouvrage
DOI :
Title :
BPM-Matlab: an open-source optical propagation simulation tool in MATLAB
Author(s) :
Veettikazhy, Madhu [Auteur]
Kragh Hansen, Anders [Auteur]
Marti, Dominik [Auteur]
Mark Jensen, Stefan [Auteur]
Lykke Borre, Anja [Auteur]
Andresen, Esben Ravn [Auteur]
Institut de Recherche sur les Composants logiciels et matériels pour l'Information et la Communication Avancée - UAR 3380 [IRCICA]
Photonique [Photonique]
Dholakia, Kishan [Auteur]
Eskil Andersen, Peter [Auteur]
Kragh Hansen, Anders [Auteur]
Marti, Dominik [Auteur]
Mark Jensen, Stefan [Auteur]
Lykke Borre, Anja [Auteur]
Andresen, Esben Ravn [Auteur]
Institut de Recherche sur les Composants logiciels et matériels pour l'Information et la Communication Avancée - UAR 3380 [IRCICA]
Photonique [Photonique]
Dholakia, Kishan [Auteur]
Eskil Andersen, Peter [Auteur]
Journal title :
Optics Express
Pages :
11819
Publisher :
Optical Society of America - OSA Publishing
Publication date :
2021-03-31
ISSN :
1094-4087
HAL domain(s) :
Sciences de l'ingénieur [physics]/Optique / photonique
English abstract : [en]
We present the use of the Douglas-Gunn Alternating Direction Implicit finite difference method for computationally efficient simulation of the electric field propagation through a wide variety of optical fiber geometries. ...
Show more >We present the use of the Douglas-Gunn Alternating Direction Implicit finite difference method for computationally efficient simulation of the electric field propagation through a wide variety of optical fiber geometries. The method can accommodate refractive index profiles of arbitrary shape and is implemented in a tool called BPM-Matlab. We validate BPM-Matlab by comparing it to published experimental, numerical, and theoretical data and to commercially available state-of-the-art software. It is user-friendly, fast, and is available open-source. BPM-Matlab has a broad scope of applications in modeling a variety of optical fibers for diverse fields such as imaging, communication, material processing, and remote sensing.Show less >
Show more >We present the use of the Douglas-Gunn Alternating Direction Implicit finite difference method for computationally efficient simulation of the electric field propagation through a wide variety of optical fiber geometries. The method can accommodate refractive index profiles of arbitrary shape and is implemented in a tool called BPM-Matlab. We validate BPM-Matlab by comparing it to published experimental, numerical, and theoretical data and to commercially available state-of-the-art software. It is user-friendly, fast, and is available open-source. BPM-Matlab has a broad scope of applications in modeling a variety of optical fibers for diverse fields such as imaging, communication, material processing, and remote sensing.Show less >
Language :
Anglais
Popular science :
Non
Source :