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In‐situ elasticity measurement for the unquenchable high‐pressure clinopyroxene phase: Implication for the upper mantle
Author(s) -
Kung Jennifer,
Li Baosheng,
Uchida Takeyuki,
Wang Yanbin
Publication year - 2005
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1029/2004gl021661
Subject(s) - mantle (geology) , elasticity (physics) , olivine , mineralogy , geology , in situ , diffraction , analytical chemistry (journal) , interferometry , materials science , chemistry , optics , geophysics , physics , composite material , chromatography , organic chemistry
Polycrystal elasticity of the unquenchable MgSiO 3 high‐pressure clinoenstatite has been measured using ultrasonic interferometry in conjunction with in‐situ X‐ray diffraction and imaging techniques within its stability field in a large volume multi‐anvil apparatus for the first time. At 6.5 GPa, we obtained ∂K S /∂P = 5.6(3), ∂G/∂P = 1.5(1), ∂K S /∂T = −0.017(1) GPa K −1 and (∂G/∂T) = −0.015(1) GPa K −1 . Our results show that the elastic velocities of HP‐CEN are not only higher than those of OEN but also higher than olivine at upper mantle conditions. According to these new data, the elastic velocities for the “depleted” mantle composition, with ∼20 vol% of HP‐CEN, would result in ∼0.8% and ∼1.6% in difference for P and S waves, respectively, when OEN data were used in previous calculations. Newly measured results also suggest that it is possible to distinguish “undepleted” and “depleted” composition models in the upper mantle.