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Ultrafast all-optical switching via subdiffractional photonic nanojets and select semiconductor nanoparticles Born, Brandon; Holzman, Jonathan; Geoffroy-Gagnon, Simon; Krupa, Jeffrey D. A.; Hristovski, Ilija; Collier, Christopher Michael
Abstract
Nanophotonic all-optical switching is anticipated to replace electronic processing in future optical fibre front-end systems—unlocking capabilities for all-optical terabit-per-second processing. This work introduces a new all-optical switch (AOS) as a fundamental element for such processing. The AOS applies a nanophotonic superlens, in the form of a dielectric microsphere, to form an intense nonevanescent subdiffractional focus called a photonic nanojet. The photonic nanojet materializes in a coating of semiconductor nanoparticles at the rear of the microsphere. The AOS is refined using Lorenz- Mie theory simulations and free-carrier dynamical modelling. Experiments with microspheres coated by Si, CdTe, InP, and CuO nanoparticles, having radii of 40, 30, 20, and 20 nm, reveal switching energies of 1 pJ, 500 fJ, 400 fJ, and 300 fJ, and switching times of 2 ps, 2.3 ps, 900 fs, and 350 fs, respectively. The realized AOS meets the ultimate goals of femtojoule switching energies and femtosecond switching times.
Item Metadata
| Title |
Ultrafast all-optical switching via subdiffractional photonic nanojets and select semiconductor nanoparticles
|
| Creator | |
| Publisher |
ACS photonics
|
| Date Issued |
2016
|
| Description |
Nanophotonic all-optical switching is anticipated to replace electronic processing in future
optical fibre front-end systems—unlocking capabilities for all-optical terabit-per-second processing. This
work introduces a new all-optical switch (AOS) as a fundamental element for such processing. The AOS
applies a nanophotonic superlens, in the form of a dielectric microsphere, to form an intense nonevanescent
subdiffractional focus called a photonic nanojet. The photonic nanojet materializes in a
coating of semiconductor nanoparticles at the rear of the microsphere. The AOS is refined using Lorenz-
Mie theory simulations and free-carrier dynamical modelling. Experiments with microspheres coated by
Si, CdTe, InP, and CuO nanoparticles, having radii of 40, 30, 20, and 20 nm, reveal switching energies of
1 pJ, 500 fJ, 400 fJ, and 300 fJ, and switching times of 2 ps, 2.3 ps, 900 fs, and 350 fs, respectively. The
realized AOS meets the ultimate goals of femtojoule switching energies and femtosecond switching
times.
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| Subject | |
| Genre | |
| Type | |
| Language |
eng
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| Date Available |
2018-03-19
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| Provider |
Vancouver : University of British Columbia Library
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| Rights |
Attribution-NonCommercial-NoDerivatives 4.0 International
|
| DOI |
10.14288/1.0364291
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| URI | |
| Affiliation | |
| Citation |
B. Born, S. Geoffroy-Gagnon, J. D. A. Krupa, I. R. Hristovski, C. M. Collier, and J. F. Holzman, "Ultrafast all-optical switching via subdiffractional photonic nanojets and select semiconductor nanoparticles," ACS Photonics, vol. 3, pp. 1095-1101, June, 2016.
|
| Publisher DOI |
10.1021/acsphotonics.6b00182
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| Peer Review Status |
Reviewed
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| Scholarly Level |
Faculty
|
| Rights URI | |
| Aggregated Source Repository |
DSpace
|
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Rights
Attribution-NonCommercial-NoDerivatives 4.0 International