RF Reflectometry of NEMS Motional Capacitance with Micromanipulator Probe

Adiabatic reversible computing can dramatically reduce heat generation by switching circuits slowly, relative to their RC time constants, and using reversible logic. Nano-electro-mechanical systems (NEMS) are a promising approach to implement reversible computing as they don't have leakage curr...

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Main Authors: Celis-Cordova, Rene, Williams, Ethan M., Cayaspo, Gabriel J. Quintero, Gose, Jacob J., Brown, Abigail F., Chisum, Jonathan D., Orlov, Alexei O., Snider, Gregory L.
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creator Celis-Cordova, Rene
Williams, Ethan M.
Cayaspo, Gabriel J. Quintero
Gose, Jacob J.
Brown, Abigail F.
Chisum, Jonathan D.
Orlov, Alexei O.
Snider, Gregory L.
description Adiabatic reversible computing can dramatically reduce heat generation by switching circuits slowly, relative to their RC time constants, and using reversible logic. Nano-electro-mechanical systems (NEMS) are a promising approach to implement reversible computing as they don't have leakage current and can be used as pull-up and pull-down networks to generate digital gates. We present the measurement of NEMS motional capacitance devices with radio frequency (RF) reflectometry using a micromanipulator probe. The probe includes an on-board matching network that can be tuned to match the impedance of the NEMS devices under test. The NEMS are operated with a DC gate voltage and the reflectometry measurements verify their functionality paving the way for adiabatic reversible computing.
doi_str_mv 10.1109/SNW56633.2022.9889036
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title RF Reflectometry of NEMS Motional Capacitance with Micromanipulator Probe
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