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Excitation, detection, and electrostatic manipulation of terahertz-frequency range plasmons in a two-dimensional electron system

Terahertz time domain spectroscopy employing free-space radiation has frequently been used to probe the elementary excitations of low-dimensional systems. The diffraction limit blocks its use for the in-plane study of individual laterally defined nanostructures, however. Here, we demonstrate a planar terahertz-frequency plasmonic circuit in which photoconductive material is monolithically integrated with a two-dimensional electron system. Plasmons with a broad spectral range (up to ~400 GHz) are excited by injecting picosecond-duration pulses, generated and detected by a photoconductive semiconductor, into a high mobility two-dimensional electron system. Using voltage modulation of a Schottky gate overlying the two-dimensional electron system, we form a tuneable plasmonic cavity, and observe electrostatic manipulation of the plasmon resonances. Our technique offers a direct route to access the picosecond dynamics of confined transport in a broad range of lateral nanostructures.

preprint2015arXivOpen access
Jingbo WuAlexander S. MayorovChristopher D. WoodDivyang MistryLianhe LiWilson MuchenjeMark C. RosamondLi ChenEdmund H. LinfieldA. Giles DaviesJohn E. Cunningham
cond-mat.mes-hallphysics.optics
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Authors

Jingbo WuAlexander S. MayorovChristopher D. WoodDivyang MistryLianhe LiWilson MuchenjeMark C. RosamondLi ChenEdmund H. LinfieldA. Giles DaviesJohn E. Cunningham

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