Nature 437, 995-998 (13 October 2005) | doi:10.1038/nature04124; Received 2 June 2005; Accepted 11 August 2005

Coherent signal amplification in bistable nanomechanical oscillators by stochastic resonance

Robert L. Badzey1 & Pritiraj Mohanty1

  1. Department of Physics, Boston University, 590 Commonwealth Avenue, Boston, Massachusetts 02215, USA

Correspondence to: Pritiraj Mohanty1 Correspondence and requests for materials should be addressed to P.M. (Email: mohanty@physics.bu.edu).

Stochastic resonance1, 2 is a counterintuitive concept: the addition of noise to a noisy system induces coherent amplification of its response. First suggested as a mechanism for the cyclic recurrence of ice ages, stochastic resonance has been seen in a wide variety of macroscopic physical systems: bistable ring lasers3, superconducting quantum interference devices4, 5 (SQUIDs), magnetoelastic ribbons6 and neurophysiological systems such as the receptors in crickets7 and crayfish8. Although fundamentally important as a mechanism of coherent signal amplification, stochastic resonance has yet to be observed in nanoscale systems. Here we report the observation of stochastic resonance in bistable nanomechanical silicon oscillators. Our nanomechanical systems consist of beams that are clamped at each end and driven into transverse oscillation with the use of a radiofrequency source. Modulation of the source induces controllable switching of the beams between two stable, distinct states. We observe that the addition of white noise causes a marked amplification of the signal strength. Stochastic resonance in nanomechanical systems could have a function in the realization of controllable high-speed nanomechanical memory cells, and paves the way for exploring macroscopic quantum coherence and tunnelling.


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