Focused-Ion-Beam Processing for Photonics

Author

De Ridder, René M. ; Hopman, Wico C L ; Ay, Feridun

Author_Institution

Univ. of Twente, Enschede

Volume

2

fYear

2007

fDate

1-5 July 2007

Firstpage

212

Lastpage

215

Abstract

Although focused ion beam (FIB) processing is a well-developed technology for many applications in electronics and physics, it has found limited application to photonics. Due to its very high spatial resolution in the order of 10 nm, and its ability to mill almost any material, it seems to have a good potential for fabricating or modifying nanophotonic structures such as photonic crystals. The two main issues are FIB-induced optical loss, e.g., due to implantation of gallium ions, and the definition of vertical sidewalls, which is affected by redeposition effects. The severity of the loss problem was found to depend on the base material, silicon being rather sensitive to this effect. The optical loss can be significantly reduced by annealing the processed samples. Changing the scanning strategy for the ion beam can both reduce the impact of gallium implantation and the redeposition effect.

Keywords

annealing; focused ion beam technology; integrated optics; ion implantation; nanotechnology; optical fabrication; optical losses; FIB-induced optical loss; annealing process; focused-ion-beam processing; gallium implantation; loss problem; nanophotonic structures; redeposition effects; scanning strategy; Crystalline materials; Ion beams; Milling machines; Optical losses; Optical materials; Optical sensors; Particle beam optics; Photonics; Physics; Spatial resolution; FIB; damage; focused ion beam; gallium implantation; optical loss; photonic crystal; scanning strategy;

fLanguage

English

Publisher

ieee

Conference_Titel

Transparent Optical Networks, 2007. ICTON '07. 9th International Conference on

Conference_Location

Rome

Print_ISBN

1-4244-1249-8

Electronic_ISBN

1-4244-1249-8

Type

conf

DOI

10.1109/ICTON.2007.4296183

Filename

4296183