2014
DOI: 10.1002/2014jb011146
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Temperature, grain size, and chemical controls on polycrystal anelasticity over a broad frequency range extending into the seismic range

Abstract: Recent experimental studies have shown that anelasticity of polycrystalline materials is subject to the Maxwell frequency (f M ) scaling:However, the applicability of this scaling to the seismic waves has not been guaranteed because experimental frequencies normalized to f M of the laboratory samples are usually much lower than the seismic frequencies normalized to f M in the upper mantle (10 6 ≤ f ∕f M ≤ 10 9 ). In this study, by using polycrystalline organic borneol as an analogue to mantle rock, we measured… Show more

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Cited by 54 publications
(198 citation statements)
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“…However, the data obtained so far are not enough to understand the underlying mechanism which is necessary to extrapolate the experimental data to the mantle conditions. To address this lack, forced oscillation tests on the rock analogue (polycrystalline aggregates of organic “borneol”) have been performed [ McCarthy et al , ; McCarthy and Takei , ; Takei et al , ]. The attenuation spectra obtained from the rock and rock analogue generally consist of a monotonic part ( Q1=Q01fα, α = 0.2–0.3) observed at low frequencies and a plateau or flattening observed at high frequencies.…”
Section: Introductionmentioning
confidence: 99%
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“…However, the data obtained so far are not enough to understand the underlying mechanism which is necessary to extrapolate the experimental data to the mantle conditions. To address this lack, forced oscillation tests on the rock analogue (polycrystalline aggregates of organic “borneol”) have been performed [ McCarthy et al , ; McCarthy and Takei , ; Takei et al , ]. The attenuation spectra obtained from the rock and rock analogue generally consist of a monotonic part ( Q1=Q01fα, α = 0.2–0.3) observed at low frequencies and a plateau or flattening observed at high frequencies.…”
Section: Introductionmentioning
confidence: 99%
“…The Maxwell frequency f M is calculated from the unrelaxed elastic modulus M U and diffusion creep viscosity η as f M = M U / η . Using the normalized frequency f / f M as a single master variable, the high‐temperature background can be expressed as Q1=Q01(f/fM)α [ Takei et al , ]. This result shows that the underlying mechanism of the high‐temperature background is “diffusionally accommodated grain boundary sliding”, which is rate limited by matter diffusion in the same manner as the diffusion creep [e.g., Raj , ].…”
Section: Introductionmentioning
confidence: 99%
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