High-Power Terahertz Generation Using Large-Area Plasmonic Photoconductive Emitters

Author

Yardimci, Nezih T. ; Shang-Hua Yang ; Berry, Christopher W. ; Jarrahi, Mona

Author_Institution

Electr. Eng. Dept., Univ. of California Los Angeles, Los Angeles, CA, USA

Volume

5

Issue

2

fYear

2015

fDate

Mar-15

Firstpage

223

Lastpage

229

Abstract

In this paper, we present a novel design of large-area photoconductive emitters which incorporates plasmonic contact electrodes to offer significantly higher optical-to-terahertz conversion efficiencies compared with conventional designs. Use of plasmonic contact electrodes enables a more efficient separation and acceleration of photocarriers, enhancing the effective dipole moment induced within the device active area in response to an incident optical pump. At an optical pump power level of 240 mW, we demonstrate broadband, pulsed terahertz radiation with radiation power levels as high as 3.8 mW over the 0.1-5-THz frequency range, exhibiting an order of magnitude higher optical-to-terahertz conversion efficiency compared with conventional designs.

Keywords

optical pumping; photoconducting devices; plasmonics; terahertz wave generation; broadband pulsed terahertz radiation; device active area; effective dipole moment; frequency 0.1 THz to 5 THz; high-power terahertz generation; incident optical pump; large-area plasmonic photoconductive emitters; optical pump power level; optical-to-terahertz conversion efficiencies; photocarrier acceleration; photocarrier separation; plasmonic contact electrodes; power 240 mW; power 3.8 mW; radiation power levels; Electrodes; Gratings; Optical device fabrication; Optical pumping; Plasmons; Stimulated emission; Substrates; Large-area emitter; photoconductivity; plasmonics; terahertz source;

fLanguage

English

Journal_Title

Terahertz Science and Technology, IEEE Transactions on

Publisher

ieee

ISSN

2156-342X

Type

jour

DOI

10.1109/TTHZ.2015.2395417

Filename

7042348