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W2289799881 abstract "High-stress Si$_3$N$_4$ nanoresonators have become an attractive choice for electro- and optomechanical devices. Membrane resonators can achieve quality factor ($Q$) - frequency ($f$) products exceeding $10^{13}$ Hz, enabling (in principle) quantum coherent operation at room temperature. String-like beam resonators possess conventionally 10 times smaller $Qcdot f$ products; however, on account of their much larger $Q$-to-mass ratio and reduced mode density, they remain a canonical choice for precision force, mass, and charge sensing, and have recently enabled Heisenberg-limited position measurements at cryogenic temperatures. Here we explore two techniques to enhance the $Q$-factor of a nanomechanical beam. The techniques relate to two main loss mechanisms: internal loss, which dominates for large aspect ratios and $flesssim100$ MHz, and radiation loss, which dominates for small aspect ratios and $fgtrsim100$ MHz. First we show that by embedding a nanobeam in a 1D phononic crystal, it is possible to localize its flexural motion and shield it against radiation loss. Using this method, we realize $f>100$ MHz modes with $Qsim 10^4$, consistent with internal loss and contrasting sharply with unshielded beams of similar dimensions. We then study the $Qcdot f$ products of high-order modes of mm-long nanobeams. Taking advantage of the mode-shape dependence of stress-induced `loss-dilution', we realize a $fapprox 4$ MHz mode with $Qcdot fapprox9cdot 10^{12}$ Hz. Our results can extend room temperature quantum coherent operation to ultra-low-mass 1D nanomechanical oscillators." @default.
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W2289799881 date "2016-03-04" @default.
W2289799881 modified "2023-10-18" @default.
W2289799881 title "Dissipation engineering of high-stress silicon nitride nanobeams" @default.
W2289799881 doi "https://doi.org/10.48550/arxiv.1603.01605" @default.
W2289799881 hasPublicationYear "2016" @default.
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