Oscillator Finite-Difference Time-Domain (O-FDTD) electric field propagation model: integrated photonics and networks
The recently developed Lorentz Oscillator Model-inspired Oscillator Finite-Difference Time-Domain (O-FDTD) is one of the simplest FDTD models ever proposed, using a single field equation for electric field propagation. We demonstrate its versatility on various scales and benchmark its simulation per...
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EDP Sciences
2021
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oai:doaj.org-article:dba64efbdcd54a0cb1617c00ed283ef22021-12-02T17:12:51ZOscillator Finite-Difference Time-Domain (O-FDTD) electric field propagation model: integrated photonics and networks2100-014X10.1051/epjconf/202125501005https://doaj.org/article/dba64efbdcd54a0cb1617c00ed283ef22021-01-01T00:00:00Zhttps://www.epj-conferences.org/articles/epjconf/pdf/2021/09/epjconf_eosam2021_01005.pdfhttps://doaj.org/toc/2100-014XThe recently developed Lorentz Oscillator Model-inspired Oscillator Finite-Difference Time-Domain (O-FDTD) is one of the simplest FDTD models ever proposed, using a single field equation for electric field propagation. We demonstrate its versatility on various scales and benchmark its simulation performance against theory, conventional FDTD simulations, and experimental observations. The model’s broad applicability is demonstrated for (but not limited to) three contrasting realms: integrated photonics components on the nano- and micrometer scale, city-wide propagating radiofrequency signals reaching into the hundreds of meters scale, and for the first time, in support of 3D optical waveguide design that may play a key role in neuromorphic photonic computational devices.Adão Ricardo M. R.Caño-Garcia ManuelMaibohm ChristianRomeira BrunoNieder Jana B.EDP SciencesarticlePhysicsQC1-999ENEPJ Web of Conferences, Vol 255, p 01005 (2021) |
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DOAJ |
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DOAJ |
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EN |
| topic |
Physics QC1-999 |
| spellingShingle |
Physics QC1-999 Adão Ricardo M. R. Caño-Garcia Manuel Maibohm Christian Romeira Bruno Nieder Jana B. Oscillator Finite-Difference Time-Domain (O-FDTD) electric field propagation model: integrated photonics and networks |
| description |
The recently developed Lorentz Oscillator Model-inspired Oscillator Finite-Difference Time-Domain (O-FDTD) is one of the simplest FDTD models ever proposed, using a single field equation for electric field propagation. We demonstrate its versatility on various scales and benchmark its simulation performance against theory, conventional FDTD simulations, and experimental observations. The model’s broad applicability is demonstrated for (but not limited to) three contrasting realms: integrated photonics components on the nano- and micrometer scale, city-wide propagating radiofrequency signals reaching into the hundreds of meters scale, and for the first time, in support of 3D optical waveguide design that may play a key role in neuromorphic photonic computational devices. |
| format |
article |
| author |
Adão Ricardo M. R. Caño-Garcia Manuel Maibohm Christian Romeira Bruno Nieder Jana B. |
| author_facet |
Adão Ricardo M. R. Caño-Garcia Manuel Maibohm Christian Romeira Bruno Nieder Jana B. |
| author_sort |
Adão Ricardo M. R. |
| title |
Oscillator Finite-Difference Time-Domain (O-FDTD) electric field propagation model: integrated photonics and networks |
| title_short |
Oscillator Finite-Difference Time-Domain (O-FDTD) electric field propagation model: integrated photonics and networks |
| title_full |
Oscillator Finite-Difference Time-Domain (O-FDTD) electric field propagation model: integrated photonics and networks |
| title_fullStr |
Oscillator Finite-Difference Time-Domain (O-FDTD) electric field propagation model: integrated photonics and networks |
| title_full_unstemmed |
Oscillator Finite-Difference Time-Domain (O-FDTD) electric field propagation model: integrated photonics and networks |
| title_sort |
oscillator finite-difference time-domain (o-fdtd) electric field propagation model: integrated photonics and networks |
| publisher |
EDP Sciences |
| publishDate |
2021 |
| url |
https://doaj.org/article/dba64efbdcd54a0cb1617c00ed283ef2 |
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| _version_ |
1718381410985705472 |