Advanced Science (Feb 2023)

Electromagnetic Reconfiguration Using Stretchable Mechanical Metamaterials

  • Maria Sakovsky,
  • Jan Negele,
  • Joseph Costantine

DOI
https://doi.org/10.1002/advs.202203376
Journal volume & issue
Vol. 10, no. 6
pp. n/a – n/a

Abstract

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Abstract Response to environmental thermomechanical inputs in applications that range from wearable electronics to aerospace structures necessitates agile communication systems driven by reconfigurable electromagnetic structures. Antennas in these systems must dynamically preserve acceptable radiation characteristics while enabling on‐demand performance reconfiguration. However, existing reconfiguration mechanisms through stretchable conductors rely on high‐strain behavior in soft substrates, which limits their applicability. Herein, this work demonstrates the use of mechanical metamaterials for stretchable conductors and dielectrics in antennas. Metamaterials allow conductor stretching up to 30% with substrate base material tensile moduli ranging from 26 MPa to 44 GPa. It is shown, through several antenna designs, that mechanical metamaterials enable similar frequency reduction upon stretching as monolithic conductors, while simultaneously providing a miniaturization effect. The conductor patterning, furthermore, provides control over coupling between mechanical stretching and electromagnetic reconfiguration. This approach enables designing reconfigurable antenna functionality through metamaterial geometry in response to arising needs in applications ranging from body‐adapted electronics to space vehicles.

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