Tunable Graphene Metamaterials for Beam Steering and Tunable Flat Lenses
Modulating graphene's optical conductivity with an electrolyte nanopatterning technique reduces or eliminates scattering loss caused by rough edges from etching. This technique uses a resist mask patterned with features as small as 30 nm to shield graphene from ions in an electrolyte. It can provide a carrier density variation of about 1014 cm−2 across a length of just 15 nm. And it can be combined with a technique of growing or transferring graphene on atomically smooth hexagonal boron nitride (hBN) to increase graphene's carrier mobility, e.g., to 10,000 cm2/(V·s) or more. The resulting graphene metamaterials can be used to make voltage-tunable electro-optical devices, such as beam-steering devices, electro-optical switch and modulators, and reconfigurable holograms.
Researchers
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tunable graphene metamaterials for beam steering and tunable flat lenses
Patent Cooperation Treaty | Published application -
tunable graphene metamaterials for beam steering and tunable flat lenses
United States of America | Granted | 11,042,073
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