Transition of a nanomechanical Sharvin oscillator towards the chaotic regime

We realize a nanomechanical impact oscillator driven by a radiofrequency signal. The mechanical impact of the oscillator is demonstrated by increasing the amplitude of the external radiofrequency signals. Electron transport in the system is dramatically modified when the oscillator is strongly drive...

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Veröffentlicht in:	New journal of physics 2017-03, Vol.19 (3), p.33033
Hauptverfasser:	Cho, Joon Hyong, Seo, Minah, Lee, Taikjin, Kim, Jae Hun, Jun, Seong Chan, Jhon, Young Min, Ahn, Kang-Hun, Blick, Robert H, Park, Hee Chul, Kim, Chulki
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Schlagworte:	chaos Electron transport impact oscillator nanoelectromechanical system Physics Radio frequency Resistance
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creator	Cho, Joon Hyong Seo, Minah Lee, Taikjin Kim, Jae Hun Jun, Seong Chan Jhon, Young Min Ahn, Kang-Hun Blick, Robert H Park, Hee Chul Kim, Chulki
description	We realize a nanomechanical impact oscillator driven by a radiofrequency signal. The mechanical impact of the oscillator is demonstrated by increasing the amplitude of the external radiofrequency signals. Electron transport in the system is dramatically modified when the oscillator is strongly driven to undergo forced impacts with electrodes. We exploit this nonlinear kind of electron transport to observe the current response in the chaotic regime. Our model adopting the Sharvin conductance at the moment of impact provides a description of the rectified current via the impact oscillator in the linear regime, revealing a path towards chaos.
doi_str_mv	10.1088/1367-2630/aa652e
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subjects	chaos Electron transport impact oscillator nanoelectromechanical system Physics Radio frequency Resistance
title	Transition of a nanomechanical Sharvin oscillator towards the chaotic regime
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