2019
DOI: 10.1063/1.5111712
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Influence of clamp-widening on the quality factor of nanomechanical silicon nitride resonators

Abstract: Nanomechanical resonators based on strained silicon nitride (Si 3 N 4 ) have received a large amount of attention in fields such as sensing and quantum optomechanics due to their exceptionally high quality factors (Qs). Room-temperature Qs approaching 1 billion are now in reach by means of phononic crystals (soft-clamping) and strain engineering. Despite great progress in enhancing Qs, difficulties in fabrication of soft-clamped samples limits their implementation into actual devices. An alternative means of a… Show more

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Cited by 25 publications
(15 citation statements)
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“…Neglecting the elongation energy (and therefore using Equation (11)) and using the corrected modeshape in Equation (12) to account for the sharp curvatures at the clamps we can simplify the dissipation dilution factor of a uniform string resonator to be [ 41,111 ] Dfalse(nπfalse)212EσhL2+13EσhL1 It is noticeable that a large aspect ratio L / h is advantageous to increase the dissipation dilution factor, with D scaling as L / h in the high stress limit. This is particularly beneficial since the clamping loss also reduces as the device's aspect ratio increases.…”
Section: Dissipation Dilutionmentioning
confidence: 99%
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“…Neglecting the elongation energy (and therefore using Equation (11)) and using the corrected modeshape in Equation (12) to account for the sharp curvatures at the clamps we can simplify the dissipation dilution factor of a uniform string resonator to be [ 41,111 ] Dfalse(nπfalse)212EσhL2+13EσhL1 It is noticeable that a large aspect ratio L / h is advantageous to increase the dissipation dilution factor, with D scaling as L / h in the high stress limit. This is particularly beneficial since the clamping loss also reduces as the device's aspect ratio increases.…”
Section: Dissipation Dilutionmentioning
confidence: 99%
“…Small changes such as altering the width of the resonator near the clamping points have demonstrated some degree of soft clamping in string and trampoline resonators. [ 90,111 ] For example, the rounding of a string resonator's clamps has shown to increase the quality factor by a factor of two by lessening the curvature of the mode. [ 90,111 ]…”
Section: Soft Clampingmentioning
confidence: 99%
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“…The radius of the clamping point is engineered to optimize the ratio of elastic energy stored as elongation as opposed to bending which is a source of losses [12,29], enhancing the Q by diluting the dissipation for the fundamental vibration mode. In this approach, two counteracting and competing mechanisms are present; the increased material volume at the widened clamps stores a larger amount of bending energy, while the increased rigidity reduces the overall bending [30,31]. The elongation to bending ratio converges to a maximum value for an optimum radius of curvature R. According to our finite element simulations, the optimal radius of curvature for our crystalline resonators is R = 30 µm, predicting a Q about four times larger compared to rigid clamping (R = 0).…”
Section: Device Design and Fabricationmentioning
confidence: 99%
“…Neglecting the elongation energy (and therefore using Equation ( 11)) and using the corrected modeshape in Equation (12) to account for the sharp curvatures at the clamps we can simplify the dissipation dilution factor of a uniform string resonator to be [41,111] D ≈ (nπ) 2 12…”
Section: Quantifying the Dissipation Dilution Factormentioning
confidence: 99%