3D metamaterials with unique microwave/optical properties: Page 3 of 3

April 08, 2019 //By Jean-Pierre Joosting
3D metamaterials with unique microwave/optical properties
A team of engineers at Tufts University has developed fabrication methods that enable the creation of 3D printed metamaterials with unique microwave or optical properties that go beyond what is possible using conventional optical or electronic materials.

"The full potential of 3D printing for MEGOs has not yet been realized," said Aydin Sadeqi, graduate student in Sankusale's lab at Tufts University School of Engineering and lead author of the study. "There is much more we can do with the current technology, and a vast potential as 3D printing inevitably evolves."

Other authors contributing to the research include Hojatollah Rezaei Nejad, post-doctoral fellow, and Rachel Owyeung, graduate student at Tufts University School of Engineering.

This work was supported by U.S. Army Cooperative Agreement #W911QY-15-2-0001, and the Office of Naval Research grant #N0014-15-1-2550.

 

Reference

Sadeqi, A., Nejad, H.R., Owyeung, R.E., Sonkusale, S., "Three-dimensional printing of metamaterial embedded geometrical optics," Microsystems & Nanoengineering, (April 8, 2019).

https://dx.doi.org/10.1038/s41378-019-0053-6

www.tufts.edu


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