L. Epp scite author profile

We describe the fabrication and characterization of a nanoelectromechanical (NEM) switch based on carbon nanotubes. Our NEM structure consists of single-walled nanotubes (SWNTs) suspended over shallow trenches in a SiO(2) layer, with a Nb pull electrode beneath. The nanotube growth is done on-chip using a patterned Fe catalyst and a methane chemical vapor deposition (CVD) process at 850 degrees C. Electrical measurements of these devices show well-defined ON and OFF states as a dc bias up to a few volts is applied between the CNT and the Nb pull electrode. The CNT switches were measured to have speeds that are 3 orders of magnitude higher than MEMS-based electrostatically driven switches, with switching times down to a few nanoseconds, while at the same time requiring pull voltages less than 5 V.

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A compact dual-polarized 8.51-GHz rectenna for high-voltage (50 V) actuator applications

Epp

Khan

Smith

et al. 2000

IEEE Trans. Microwave Theory Techn.

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A High-Power $Ka$-Band (31–36 GHz) Solid-State Amplifier Based on Low-Loss Corporate Waveguide Combining

Epp

Hoppe

Khan

et al. 2008

IEEE Trans. Microwave Theory Techn.

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A hybrid symmetric FEM/MOM formulation applied to scattering by inhomogeneous bodies of revolution

Hoppe

Epp

Lee

1994

IEEE Trans. Antennas Propagat.

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System Design and Subsystem Technology for a Future Spaceborne Cloud Radar

Durden

Tanelli

Epp

et al. 2016

IEEE Geosci. Remote Sensing Lett.

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L. Epp

Electromechanical Carbon Nanotube Switches for High-Frequency Applications

A compact dual-polarized 8.51-GHz rectenna for high-voltage (50 V) actuator applications

A High-Power $Ka$-Band (31–36 GHz) Solid-State Amplifier Based on Low-Loss Corporate Waveguide Combining

A hybrid symmetric FEM/MOM formulation applied to scattering by inhomogeneous bodies of revolution

System Design and Subsystem Technology for a Future Spaceborne Cloud Radar

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