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Article Dans Une Revue Nanoscale Année : 2020

Optomechanical Resonating Probe for Very High Speed Sensing of Atomic Forces

Colin Mismer
  • Fonction : Auteur
Benjamin Walter
  • Fonction : Auteur

Résumé

Atomic force spectroscopy and microscopy (AFM) are invaluable tools to characterize nanostructures and biological systems. Most experiments, including state-of-the-art images of molecular bonds, are achieved by driving probes at their mechanical resonance. This resonance reaches the MHz for the fastest AFM micro-cantilevers, with typical motion amplitude of a few nanometres. Next-generation investigations of molecular scale dynamics, including faster force imaging and higher-resolution spectroscopy of dissipative interactions, require more bandwidth and vibration amplitudes below interatomic distance, for non-perturbative short-range tip-matter interactions. Probe frequency is a key parameter to improve bandwidth while reducing Brownian motion, allowing large signal-to-noise for exquisite resolution. Optomechanical resonators reach motion detection at 10^(-18) m.(Hz)^(-1/2), while coupling light to bulk vibration modes whose frequencies largely surpass those of cantilevers. Here we introduce an optically operated resonating optomechanical atomic force probe of frequency 2 decades above the fastest functional AFM cantilevers while Brownian motion is 4 orders below. Based on a Silicon-On-Insulator technology, the probe demonstrates high-speed sensing of contact and non-contact interactions with sub-picometre driven motion, breaking open current locks for faster and finer atomic force spectroscopy.
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Dates et versions

hal-01908683 , version 1 (23-11-2020)
hal-01908683 , version 2 (21-07-2022)

Identifiants

Citer

Pierre Etienne Allain, Lucien Schwab, Colin Mismer, Marc Gély, Estelle Mairiaux, et al.. Optomechanical Resonating Probe for Very High Speed Sensing of Atomic Forces. Nanoscale, 2020, 12 (5), pp.2939-2945. ⟨10.1039/C9NR09690F⟩. ⟨hal-01908683v2⟩
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