Extraordinary optical absorption through subwavelength slits

Authors

Justin S. White, Geballe Laboratory for Advanced Materials
Georgios Veronis, Louisiana State University
Zongfu Yu, Ginzton Laboratory
Edward S. Barnard, Geballe Laboratory for Advanced Materials
Anu Chandran, Geballe Laboratory for Advanced Materials
Shanhui Fan, Ginzton Laboratory
Mark L. Brongersma, Geballe Laboratory for Advanced Materials

Document Type

Article

Publication Date

3-1-2009

Abstract

We report on the ability of resonant plasmonic slits to efficiently concentrate electromagnetic energy into a nanoscale volume of absorbing material placed inside or directly behind the slit. This gives rise to extraordinary optical absorption characterized by an absorption enhancement factor that well exceeds the enhancements seen for extraordinary optical transmission through slits. A semianalytic Fabry-Perot model for the resonant absorption is developed and shown to quantitatively agree with full-field simulations. We show that absorption enhancements of nearly 1000% can be realized at 633 nm for slits in aluminum films filled with silicon. This effect can be utilized in a wide range of applications, including high-speed photodetectors, optical lithography and recording, and biosensors. © 2009 Optical Society of America.

Publication Source (Journal or Book title)

Optics Letters

First Page

686

Last Page

688

Recommended Citation

White, J., Veronis, G., Yu, Z., Barnard, E., Chandran, A., Fan, S., & Brongersma, M. (2009). Extraordinary optical absorption through subwavelength slits. Optics Letters, 34 (5), 686-688. https://doi.org/10.1364/OL.34.000686