Title :
Robust Pressure-Actuated Liquid Metal Devices Showing Reconfigurable Electromagnetic Effects at GHz Frequencies
Author :
Cumby, Brad L. ; Mast, David B. ; Tabor, Christopher E. ; Dickey, Michael D. ; Heikenfeld, Jason
Author_Institution :
Dept. of Electr. Eng. & Comput. Syst., Univ. of Cincinnati, Cincinnati, OH, USA
Abstract :
Pressure-actuated liquid metal devices are demonstrated for reconfigurable electromagnetic fundamentals at GHz frequencies, including tunable dipole antennas, switchable shielding with 35-dB attenuation, ~ 30-dB polarizer attenuation, and ~ 40° diffraction from a linear grating. In addition to a wide variety of electromagnetic effects, these devices are further advanced by: being highly physically flexible; in use of nontoxic GaInSn (68.5% Ga, 21.5% In, and 10.0% Sn) alloy as enabled by a sealed closed system with an acidic vapor background; and nonalloying/corrosion-resistant carbon inks for electrical connection. Collectively, this work addresses a wide variety of electromagnetic fundamentals, and the device construction advances required for real-world applications.
Keywords :
diffraction gratings; dipole antennas; electric connectors; electromagnetic shielding; electromagnetic wave attenuation; electromagnetic wave polarisation; gallium alloys; indium alloys; liquid metals; tin alloys; GHz frequency; GaInSn; acidic vapor background; electrical connection; linear grating diffraction; nonalloying-corrosion-resistant carbon inks; nontoxic GaInSn alloy; polarizer attenuation; reconfigurable electromagnetic effects; reconfigurable electromagnetic fundamentals; robust pressure-actuated liquid metal devices; sealed closed system; switchable shielding; tunable dipole antennas; Electromagnetic waveguides; Electromagnetics; Liquids; Metals; Microwave devices; Switches; Antennas; attenuation; diffraction; liquid metal; microfluidics; polarization; shielding;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2015.2470244
