Details
Originalsprache | Englisch |
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Seitenumfang | 1 |
Publikationsstatus | Veröffentlicht - 2019 |
Veranstaltung | European Quantum Electronics Conference, EQEC_2019 - Munich, Großbritannien / Vereinigtes Königreich Dauer: 23 Juni 2019 → 27 Juni 2019 |
Konferenz
Konferenz | European Quantum Electronics Conference, EQEC_2019 |
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Land/Gebiet | Großbritannien / Vereinigtes Königreich |
Ort | Munich |
Zeitraum | 23 Juni 2019 → 27 Juni 2019 |
Abstract
Silver nanoparticle doped photonic crystal fibres (SNPCF) exhibit negative Kerr nonlinearity over certain wavelength ranges [1]. At some specific wavelength, the nonlinearity vanishes representing a zero-nonlinearity (ZN) point, allowing for new propagation dynamics of solitons due to controllable interaction of dispersion and nonlinearity [2]. Here we show that the presence of a ZN point significantly influences the temporal trajectory of a soliton during the process of supercontinuum (SC) generation. The input pulse launched in the anomalous dispersion domain but with negative nonlinearity, close to zero dispersion wavelength (ZDW), generates bright solitons exhibiting complex acceleration, deceleration, and shaping behaviour, due to Raman effect, nonlinear dispersion and the four-wave mixing interaction processes. We study the variations of dynamics for different ZN points demonstrating the efficient control of soliton trajectories.
ASJC Scopus Sachgebiete
- Werkstoffwissenschaften (insg.)
- Elektronische, optische und magnetische Materialien
- Ingenieurwesen (insg.)
- Werkstoffmechanik
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2019. Postersitzung präsentiert bei European Quantum Electronics Conference, EQEC_2019, Munich, Großbritannien / Vereinigtes Königreich.
Publikation: Konferenzbeitrag › Poster › Forschung › Peer-Review
}
TY - CONF
T1 - Controlling the temporal trajectory of solitons in silver nanoparticle doped fibre
AU - Bose, Surajit
AU - Steinmeyer, Günter
AU - Morgner, Uwe
AU - Demircan, Ayhan
N1 - Publisher Copyright: © 2019 IEEE Copyright: Copyright 2020 Elsevier B.V., All rights reserved.
PY - 2019
Y1 - 2019
N2 - Silver nanoparticle doped photonic crystal fibres (SNPCF) exhibit negative Kerr nonlinearity over certain wavelength ranges [1]. At some specific wavelength, the nonlinearity vanishes representing a zero-nonlinearity (ZN) point, allowing for new propagation dynamics of solitons due to controllable interaction of dispersion and nonlinearity [2]. Here we show that the presence of a ZN point significantly influences the temporal trajectory of a soliton during the process of supercontinuum (SC) generation. The input pulse launched in the anomalous dispersion domain but with negative nonlinearity, close to zero dispersion wavelength (ZDW), generates bright solitons exhibiting complex acceleration, deceleration, and shaping behaviour, due to Raman effect, nonlinear dispersion and the four-wave mixing interaction processes. We study the variations of dynamics for different ZN points demonstrating the efficient control of soliton trajectories.
AB - Silver nanoparticle doped photonic crystal fibres (SNPCF) exhibit negative Kerr nonlinearity over certain wavelength ranges [1]. At some specific wavelength, the nonlinearity vanishes representing a zero-nonlinearity (ZN) point, allowing for new propagation dynamics of solitons due to controllable interaction of dispersion and nonlinearity [2]. Here we show that the presence of a ZN point significantly influences the temporal trajectory of a soliton during the process of supercontinuum (SC) generation. The input pulse launched in the anomalous dispersion domain but with negative nonlinearity, close to zero dispersion wavelength (ZDW), generates bright solitons exhibiting complex acceleration, deceleration, and shaping behaviour, due to Raman effect, nonlinear dispersion and the four-wave mixing interaction processes. We study the variations of dynamics for different ZN points demonstrating the efficient control of soliton trajectories.
UR - http://www.scopus.com/inward/record.url?scp=85084523679&partnerID=8YFLogxK
M3 - Poster
T2 - European Quantum Electronics Conference, EQEC_2019
Y2 - 23 June 2019 through 27 June 2019
ER -