Title :
7.5% Optical-to-Terahertz Conversion Efficiency Offered by Photoconductive Emitters With Three-Dimensional Plasmonic Contact Electrodes
Author :
Shang-Hua Yang ; Hashemi, Mohammed R. ; Berry, Christopher W. ; Jarrahi, Mona
Author_Institution :
Electr. Eng. Dept., Univ. of California, Los Angeles, Los Angeles, CA, USA
Abstract :
We present a photoconductive terahertz emitter that incorporates three-dimensional plasmonic contact electrodes to offer record high optical-to-terahertz power conversion efficiencies. By use of three-dimensional plasmonic contact electrodes the majority of photocarriers are generated within nanoscale distances from the photoconductor contact electrodes and drifted to the terahertz radiating antenna in a sub-picosecond time-scale to efficiently contribute to terahertz radiation. We experimentally demonstrate 105 μW of broadband terahertz radiation in the 0.1-2 THz frequency range in response to a 1.4 mW optical pump, exhibiting a record high optical-to-terahertz power conversion efficiency of 7.5%.
Keywords :
antenna radiation patterns; microwave antennas; photoconducting materials; photoconductivity; plasmonics; terahertz wave detectors; terahertz wave generation; 3D plasmonic contact electrodes; broadband terahertz radiation; frequency 0.1 THz to 2 THz; optical pump; optical-to-terahertz conversion efficiency; photocarrier generation; photoconductive terahertz emitter; photoconductor contact electrode; power 1.4 mW; power 105 muW; sub-picosecond time scale; terahertz radiating antenna; Electrodes; Optical device fabrication; Optical pumping; Plasmons; Stimulated emission; Substrates; Ultrafast optics; Nanoscale devices; photoconductive antenna; plasmonics; terahertz source; ultrafast photoconductor;
Journal_Title :
Terahertz Science and Technology, IEEE Transactions on
DOI :
10.1109/TTHZ.2014.2342505
