Fiber-launched ultratight photorefractive solitons integrating fast soliton-based beam manipulation circuitry

Eugenio DelRe; Elia Palange; Aharon J. Agranat

doi:10.1063/1.1651332

Fiber-launched ultratight photorefractive solitons integrating fast soliton-based beam manipulation circuitry

Eugenio DelRe^*, Elia Palange, Aharon J. Agranat

^*Corresponding author for this work

The Institute of Applied Physics

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

The deterministic and reliable single mode fiber integration with spatial solitons through ultratight needles in photorefractive, was analyzed. It allowed the integration of electrography and soliton based circuitry at longer nonabsorbed wavelengths. A twin soliton switching device based on two oppositely charged solitons was developed. It was shown that the information carrying channels can themselves be used to configure the electro-optic circuitry, by locallay feeding a photorefractive signal.

Original language	English
Pages (from-to)	3822-3824
Number of pages	3
Journal	Journal of Applied Physics
Volume	95
Issue number	7
DOIs	https://doi.org/10.1063/1.1651332
State	Published - 1 Apr 2004

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abstract = "The deterministic and reliable single mode fiber integration with spatial solitons through ultratight needles in photorefractive, was analyzed. It allowed the integration of electrography and soliton based circuitry at longer nonabsorbed wavelengths. A twin soliton switching device based on two oppositely charged solitons was developed. It was shown that the information carrying channels can themselves be used to configure the electro-optic circuitry, by locallay feeding a photorefractive signal.",

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AB - The deterministic and reliable single mode fiber integration with spatial solitons through ultratight needles in photorefractive, was analyzed. It allowed the integration of electrography and soliton based circuitry at longer nonabsorbed wavelengths. A twin soliton switching device based on two oppositely charged solitons was developed. It was shown that the information carrying channels can themselves be used to configure the electro-optic circuitry, by locallay feeding a photorefractive signal.

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Fiber-launched ultratight photorefractive solitons integrating fast soliton-based beam manipulation circuitry

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