Advanced Science (Jul 2021)

Imaging Off‐Resonance Nanomechanical Motion as Modal Superposition

  • Joshoua Condicion Esmenda,
  • Myrron Albert Callera Aguila,
  • Jyh‐Yang Wang,
  • Teik‐Hui Lee,
  • Chi‐Yuan Yang,
  • Kung‐Hsuan Lin,
  • Kuei‐Shu Chang‐Liao,
  • Nadav Katz,
  • Sergey Kafanov,
  • Yuri A. Pashkin,
  • Chii‐Dong Chen

DOI
https://doi.org/10.1002/advs.202005041
Journal volume & issue
Vol. 8, no. 13
pp. n/a – n/a

Abstract

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Abstract Observation of resonance modes is the most straightforward way of studying mechanical oscillations because these modes have maximum response to stimuli. However, a deeper understanding of mechanical motion can be obtained by also looking at modal responses at frequencies in between resonances. Here, an imaging of the modal responses for a nanomechanical drum driven off resonance is presented. By using the frequency modal analysis, these shapes are described as a superposition of resonance modes. It is found that the spatial distribution of the oscillating component of the driving force, which is affected by both the shape of the actuating electrode and inherent device properties such as asymmetry and initial slack, greatly influences the modal weight or participation. This modal superposition analysis elucidates the dynamics of any nanomechanical system through modal weights. This aids in optimizing mode‐specific designs for force sensing and integration with other systems.

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