Journal
JOURNAL OF PHYSICS D-APPLIED PHYSICS
Volume 56, Issue 7, Pages -Publisher
IOP Publishing Ltd
DOI: 10.1088/1361-6463/acb4a7
Keywords
metasurface; active control; spintronic terahertz emitter; polarization
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Active metasurfaces have gained attention for their function switching and wavefront shaping capabilities. This study introduces a new paradigm for controlling metasurfaces by integrating a tunable and programmable spintronic terahertz emitter. Compatibility with conventional materials enables passive metasurfaces to become active, as demonstrated in a quarter-wave plate design. The integration of the spintronic emitter opens possibilities for programmable metasurfaces using spatial light modulators, bridging metasurface and spintronic THz emitter research.
Active metasurfaces have attracted increased attention due to their capabilities in function switching and wavefront shaping. Here we develop a new paradigm for active control of metasurfaces via integrating a tunable and programmable spintronic terahertz emitter (STE). While compatible with almost all conventional materials for metasurfaces, the STE can empower the passive metasurfaces to be active with increased flexibility. For the sake of illustration, a STE integrated metasurface quarter-wave plate is demonstrated, which enables broadband full polarization control over the entire Poincare sphere. We also share a future perspective that the STE integrated metasurface can be readily programmed by using a commercial spatial light modulator. This work bridges the studies of metasurfaces and spintronic THz emitters, and may inspire more fruitful active metasurface designs and applications.
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