Study of elements of plasmon waveguide nanooptics
UDC
621.383Abstract
The elements of waveguide plasmon nanooptics are calculated. The characteristics of basic waveguide nanostructures, having microstrip type (dielectric-metal-dielectric), are estimated. The parameters of waveguide components are selected for it's incorporation in data processing system at optical level.
Keywords:
nanooptics, integrated optics, surface plasmonsReferences
- Stockman M.I. Nanoplasmonics: past, present, and glimpse into future // Optics Express. 2011. Vol. 19. No 22. Р. 22029-22106.
- Maier S.A. Plasmonics: the promise of highly integrated optical devices // IEEE Journal of Selected Topics in Quantum Electronics. 2006. Vol. 12. No 6. P. 1671-1677.
- Boltasseva А., Nikolajsen Т., Leosson К., Kjaer К., Larsen М.S., Bozhevolnyi S.I. Integrated optical components utilizing long-range surface plasmon polaritons // Journal of Lightwave Technology. 2005. Vol. 2. No 1. P. 413-422.
- Charbonneau R., Scales C., Breukelaar I., Fafard S., Lahoud N., Mattiussi G., Berini P. Passive integrated optics elements based on long-ranging surface plasmon polaritons // Journal Lightwave Technol. 2006. Vol. 24. No 1. P. 477-494.
- Lee W.J., Kim J.E., Park H.Y., Park S., Lee J.M., Kim M., Ju J.J., Lee M.H. Enhanced Transmission in a Fiber-Coupled Au Stripe Waveguide System // IEEE Photonics Technology Letters. 2010. Vol. 22. No 2. P. 100-102.
- Huang W.P., Xu C.L. Simulation of three-dimensional optical waveguides by a full-vector beam propagation method // IEEE Journal of Quantum Electronics. 1993. Vol. 29. No 12. P. 2639-2649.
- Hadley R.G. Transparent boundary condition for beam propagation method // IEEE Journal of Quantum Electronics. 1992. Vol. 28. No 1. P. 363-370.
Downloads
Issue
Pages
Submitted
Published
How to Cite
Copyright (c) 2012 Vekshin M.M., Culish O.A., Yakovenko N.A.
![Creative Commons License](http://i.creativecommons.org/l/by/4.0/88x31.png)
This work is licensed under a Creative Commons Attribution 4.0 International License.