2008
DOI: 10.1109/jmems.2008.918409
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High-Performance Polycrystalline Diamond Micro- and Nanoresonators

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Cited by 36 publications
(33 citation statements)
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“…8 indicates that the dissipation is mainly due to the relaxation of large number of defects in the bulk or the surface of the film. Sepúlveda et al 24 reported a quality factor Q for polycrystalline diamond ͑PCD͒ ͑grain size ϳ300 nm͒ fixed-free resonators in the range of 4000-100000, which includes values higher than the Q's observed for UNCD cantilevers with comparable dimensions reported in this paper. They suggested that, as the film percentage occupied by the nucleation layer containing fine grained diamond is increased, the quality factor of the resonators is reduced.…”
Section: Dissipation In Diamondcontrasting
confidence: 50%
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“…8 indicates that the dissipation is mainly due to the relaxation of large number of defects in the bulk or the surface of the film. Sepúlveda et al 24 reported a quality factor Q for polycrystalline diamond ͑PCD͒ ͑grain size ϳ300 nm͒ fixed-free resonators in the range of 4000-100000, which includes values higher than the Q's observed for UNCD cantilevers with comparable dimensions reported in this paper. They suggested that, as the film percentage occupied by the nucleation layer containing fine grained diamond is increased, the quality factor of the resonators is reduced.…”
Section: Dissipation In Diamondcontrasting
confidence: 50%
“…11 Recent investigation 36 of the quality factor of metalcoated UNCD fixed-fixed beams at extremely low temperatures ͑Ͻ10 K͒ indicated the presence of TLS processes. Table II summarizes the results reported by other groups [9][10][11]24,44,45 as compared to ours for different flexural beams fabricated using NCD, UNCD, or ta-C films.…”
Section: Dissipation In Diamondmentioning
confidence: 67%
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“…[11,12,22] Impurity atoms, dislocations, and other defects at grain boundaries and at surfaces undergo a transition from one state to another similar to two-level systems when under stress. Dissipation in such systems exhibit Debye peaks with a characteristic relaxation time τ which is unique to that transition.…”
Section: Dissipation In Micro-cantileversmentioning
confidence: 99%
“…Stress assisted relaxation of the defects in the grain boundaries and at the surface are believed to be responsible observed dissipation. [11,12] The temperature dependence of the resonant frequency (and hence the Young's modulus) and dissipation in UNCD cantilever beams is useful for determining the nature of such defects. In this article we report the temperature dependence of frequency, hence Young's modulus and quality factor in UNCD cantilever beams grown using the HFCVD process.…”
Section: Introductionmentioning
confidence: 99%