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Signatures of two-level defects in the temperature-dependent damping of nanomechanical silicon nitride resonators

The damping rates of high quality factor nanomechanical resonators are well beyond intrinsic limits. Here, we explore the underlying microscopic loss mechanisms by investigating the temperature-dependent damping of the fundamental and third harmonic transverse flexural mode of a doubly clamped silicon nitride string. It exhibits characteristic maxima reminiscent of two-level defects typical for amorphous materials. Coupling to those defects relaxes the momentum selection rules, allowing energy transfer from discrete long wavelength resonator modes to the high frequency phonon environment.

preprint2013arXivOpen access
Thomas FaustJohannes RiegerMaximilian J. SeitnerJörg P. KotthausEva M. Weig
cond-mat.mes-hall
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Open access5 authors1 topic
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Thomas FaustJohannes RiegerMaximilian J. SeitnerJörg P. KotthausEva M. Weig

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