Abstract
We report here fabrication of interdigitated photoconductive antenna (iPCA) terahertz (THz) emitters based on plasmonic electrode design. Novel design of this iPCA enables it to work without microlens array focusing, which is otherwise required for photo excitation of selective photoconductive regions to avoid the destructive interference of emitted THz radiation from oppositely biased regions. Benefit of iPCA over single active region PCA is, photo excitation can be done at larger area hence avoiding the saturation effect at higher optical excitation density. The emitted THz radiation power from plasmonic-iPCAs is ~2 times more than the single active region plasmonic PCA at 200 mW optical excitation, which will further increase at higher optical powers. This design is expected to reduce fabrication cost of photoconductive THz sources and detectors.
Highlights
We report here fabrication of interdigitated photoconductive antenna terahertz (THz) emitters based on plasmonic electrode design
Emitted THz pulse from any two neighboring active regions will be in opposite phase and overall THz emission in forward direction will cancel out due to destructive interference
One of the options is to cover the alternate active regions with some metallic layer to forbid photo excitation in that region, 50% of THz electric field will not be generated which otherwise would be in opposite phase to the rest of 50% THz electric field
Summary
We report here fabrication of interdigitated photoconductive antenna (iPCA) terahertz (THz) emitters based on plasmonic electrode design. Design of iPCAs are such that direction of applied electric field in any two neighboring active regions will be opposite. Emitted THz pulse from any two neighboring active regions will be in opposite phase and overall THz emission in forward direction will cancel out due to destructive interference.
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