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Researchers at the Georgia Institute of Technology have devised a method for using an origami-based structure to create radio frequency filters that have adjustable dimensions, enabling the devices to change which signals they block throughout a large range of frequencies.
The new approach to creating these tunable filters could have a variety of uses, from antenna systems capable of adapting in real-time to ambient conditions to the next generation of electromagnetic cloaking systems that could be reconfigured on the fly to reflect or absorb different frequencies.
The team focused on one particular pattern of origami, called Miura-Ori, which has the ability to expand and contract like an accordion.
"The Miura-Ori pattern has an infinite number of possible positions along its range of extension from fully compressed to fully expanded," said Glaucio Paulino, the Raymond Allen Jones Chair of Engineering and a professor in the Georgia Tech School of Civil and Environmental Engineering. "A spatial filter made in this fashion can achieve similar versatility, changing which frequency it blocks as the filter is compressed or expanded."
Source: Shape-shifting origami could help antenna systems adapt on the fly
Continuous-range tunable multi-layer frequency selective surfaces using origami and inkjet-printing (DOI: 10.1073/pnas.1812486115) (DX)
(Score: 2) by Knowledge Troll on Thursday December 13 2018, @04:32PM
The article describes an antenna and even calls it an antenna so why was the label "filter" used? A dipole might meet the technical definition of a filter because it's such a broad term but when adjustable length, filter, and RF go together I was expecting an adjustable coax stub notch or something like it.