Novel paradigm for integrated photonics circuits: transient interconnection network
Novel paradigm for integrated photonics circuits: transient interconnection network
Self-confined beams and spatial solitons were always investigated for a purely academic point of view, describing their formation and cross-interaction. We propose a novel paradigm for integrated photonics circuits based on self-confined interconnections. We consider that circuits are not designed since beginning; a network of writing lasers provide the circuit configuration inside which information at a different wavelength travels. we propose new designs for interconnections and both digital and analog switching gates somehow inspired by Nature, following analog decision routes used in biological networks like brain synapsis or animal path finding.
Fazio, Eugenio
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Belardini, Alessandro
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Bastiani, Lorenzo
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Alonzo, Massimo
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Chauvet, Mathieu
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Zheludev, Nikolai
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Soci, Cesare
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Fazio, Eugenio
5b375ea8-c8ea-4ebe-9ddd-400a99f1ea51
Belardini, Alessandro
26c796ef-2d81-431e-8a92-269b3d9642eb
Bastiani, Lorenzo
b082c60a-a704-45ec-a334-d233b8d16e9c
Alonzo, Massimo
7c900ade-7d92-4b83-a03a-59168aa6e649
Chauvet, Mathieu
4e570252-f376-437a-a7a7-a4b276712d2d
Zheludev, Nikolai
32fb6af7-97e4-4d11-bca6-805745e40cc6
Soci, Cesare
6c86324e-2968-4e90-9436-4a92a4b26cec
Fazio, Eugenio, Belardini, Alessandro, Bastiani, Lorenzo, Alonzo, Massimo, Chauvet, Mathieu, Zheludev, Nikolai and Soci, Cesare
(2017)
Novel paradigm for integrated photonics circuits: transient interconnection network.
In Next-Generation Optical Communication: Components, Sub-Systems, and Systems VI.
vol. 10130
(In Press)
(doi:10.1117/12.2253636).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Self-confined beams and spatial solitons were always investigated for a purely academic point of view, describing their formation and cross-interaction. We propose a novel paradigm for integrated photonics circuits based on self-confined interconnections. We consider that circuits are not designed since beginning; a network of writing lasers provide the circuit configuration inside which information at a different wavelength travels. we propose new designs for interconnections and both digital and analog switching gates somehow inspired by Nature, following analog decision routes used in biological networks like brain synapsis or animal path finding.
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More information
Accepted/In Press date: 28 January 2017
Venue - Dates:
Next-Generation Optical Communication: Components, Sub-Systems, and Systems VI, USA, California, United States, 2017-01-28 - 2017-01-28
Identifiers
Local EPrints ID: 413251
URI: http://eprints.soton.ac.uk/id/eprint/413251
ISSN: 0277-786X
PURE UUID: 8d44c2cc-327b-41db-8864-bfb57955f67a
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Date deposited: 18 Aug 2017 16:31
Last modified: 16 Mar 2024 02:43
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Contributors
Author:
Eugenio Fazio
Author:
Alessandro Belardini
Author:
Lorenzo Bastiani
Author:
Massimo Alonzo
Author:
Mathieu Chauvet
Author:
Nikolai Zheludev
Author:
Cesare Soci
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