Large area self assembled tunable terahertz detector

Author

Bae, Che Jin ; George, Deepu K. ; Singh, Rohit ; Markelz, Andrea

Author_Institution

Dept. of Phys., Univ. at Buffalo, Buffalo, NY, USA

fYear

2011

fDate

2-7 Oct. 2011

Firstpage

1

Lastpage

2

Abstract

Recently compact frequency sensitive THz detection has been achieved using gated gratings on 2DEG structure. The method is based on the resonant absorption of the 2D plasmon dependence on tuning of carrier density by depletion gating. Here we demonstrate a method to improve detector sensitivity, tunability and remove polarization dependence through the development of a gated grid design. The requirement for imaging applications of device dimensions on the order of <;1 micron over a detector area of 4 mm², suggest that standard lithographic approaches will be too costly for large scale detector production. Here we realize the gated grid plasmonic structure on 2DEG material by using nanosphere self-assembly lithography.

Keywords

carrier density; diffraction gratings; photolithography; plasmonics; plasmons; self-assembly; terahertz wave detectors; 2D plasmon resonant absorption; 2DEG material structure; carrier density tuning; compact frequency sensitive THz detection; depletion gating; detector sensitivity; gated grating; gated grid plasmonic structure design; large area self assembled tunable terahertz detector; large scale detector production; nanosphere self-assembly lithography; photolithography; polarization dependence removal; standard lithographic approach; Electric fields; Gratings; Logic gates; Mathematical model; Plasmons; Resonant frequency; Self-assembly;

fLanguage

English

Publisher

ieee

Conference_Titel

Infrared, Millimeter and Terahertz Waves (IRMMW-THz), 2011 36th International Conference on

Conference_Location

Houston, TX

ISSN

2162-2027

Print_ISBN

978-1-4577-0510-6

Electronic_ISBN

2162-2027

Type

conf

DOI

10.1109/irmmw-THz.2011.6104768

Filename

6104768