Localized high field enhancements from hemispherical 3D mesoscale dielectric particles in the refection mode

Author

Minin, Igor V. ; Minin, Oleg V. ; Kharitoshin, Nikita A.

Author_Institution

Siberian State Univ. of Geosyst. & Technol., Novosibirsk, Russia

fYear

2015

fDate

June 29 2015-July 3 2015

Firstpage

331

Lastpage

333

Abstract

In this paper the formation of photonic jet is demonstrated using 3D dielectric hemispheres working in “refection” mode when the specific spatially localized region is localized towards the direction of incidence wavefront. The results of simulation based on Finite Integration Technique are discussed. All dimensions are given in wavelength units so that all results can be scaled to any frequency of interest including optical frequencies, simplifying the fabrication process compared with spherical dielectrics. The results here presented may be of interest for novel applications including microscopy techniques and sensors.

Keywords

dielectric materials; jets; light reflection; nanophotonics; optical fabrication; 3D dielectric hemispheres; fabrication process; finite integration technique; hemispherical 3D mesoscale dielectric particles; incidence wavefront; localized high field enhancements; microscopy sensors; microscopy techniques; optical frequency; photonic jet formation; refection mode; spatially localized region; wavelength units; Dielectrics; Focusing; Optimized production technology; Photonics; Reflection; Refractive index; Three-dimensional displays; mirror; numerical simulation; photonic nanojet; terajet; the dielectric structure; the wave front;

fLanguage

English

Publisher

ieee

Conference_Titel

Micro/Nanotechnologies and Electron Devices (EDM), 2015 16th International Conference of Young Specialists on

Conference_Location

Erlagol

ISSN

2325-4173

Print_ISBN

978-1-4673-6718-9

Type

conf

DOI

10.1109/EDM.2015.7184556

Filename

7184556