Univ. Bordeaux, LOMA, UMR 5798, F-33400 Talence, France.
CNRS, LOMA, UMR 5798, F-33400 Talence, France.
Phys Rev Lett. 2015 Nov 13;115(20):206802. doi: 10.1103/PhysRevLett.115.206802. Epub 2015 Nov 11.
Transport measurements allow sensitive detection of nanomechanical motion of suspended carbon nanotubes. It has been predicted that when the electromechanical coupling is sufficiently large a bistability with a current blockade appears. Unambiguous observation of this transition by current measurements may be difficult. Instead, we investigate the mechanical response of the system, namely, the displacement spectral function, the linear response to a driving, and the ring-down behavior. We find that by increasing the electromechanical coupling the peak in the spectral function broadens and shifts at low frequencies while the oscillator dephasing time shortens. These effects are maximum at the transition where nonlinearities dominate the dynamics. These strong signatures open the way to detect the blockade transition in devices currently studied by several groups.
输运测量允许对悬浮碳纳米管的纳米机械运动进行敏感检测。据预测,当机电耦合足够大时,会出现电流阻塞的双稳性。通过电流测量明确观察到这种转变可能很困难。相反,我们研究了系统的机械响应,即位移谱函数、对驱动的线性响应和衰减行为。我们发现,通过增加机电耦合,谱函数中的峰值在低频下变宽和移动,而振荡器去相时间缩短。这些效应在非线性主导动力学的转变处达到最大值。这些强烈的特征为目前几个研究小组正在研究的器件中检测阻塞转变开辟了道路。
