• journal_title：European Journal of Mineralogy
• Contributor：Anne M. Hofmeister ; Maik Pertermann
• Publisher：E. Schweizerbart'sche Verlagsbuchhandlung Science Publishers
• Date：2008-
• Format：text/html
• Language：en
• Identifier：10.1127/0935-1221/2008/0020-1814
• journal_abbrev：Eur J Mineral
• issn：0935-1221
• volume：20
• issue：4
• firstpage：537
• section：Other Articles

The phonon component of thermal diffusivity (D) was measured from 8 single-crystals and 2 polycrystalline clinopyroxene samples at temperatures (T) up to a maximum of ~1000 to 1600 K, using laser-flash analysis. Electron microprobe analysis shows that we have two samples of near end-member diopside, two augites, one end-member and one impure jadeite, aegerine, and three near end-member spodumenes. Hydroxyl contents determined from near-IR spectroscopy range from ~ 0 to 70 ppm as H₂O. Two directions constrain D for clinopyroxenes, consistent with phonon symmetry. Anisotropy = (D_⊥c −D_||c)/D_||c is near 40 % for all samples and independent of T, where || and ⊥ indicate the direction heat flows relative to the c-axis. Thermal diffusivity decreases with increasing T and approaches a constant (D_sat) near 1400 K. The temperature dependence of 1/D is well described by low-order polynomial fits. At 298 K and for near end-member compositions, cation mass and bond lengths strongly affect D_⊥c whereas D_||c is essentially constant and large, 3.9 mm² s⁻¹. For solid solutions, D at 298 K decreases from end-member values as impurity content increases, but D at saturation is little affected. Excluding Li-rich clinopyroxenes, D_⊥c,sat ~ 0.5 mm² s⁻¹ and D_||c,sat ~ 0.9 mm² s⁻¹. The values pertain to lithospheric and mantle compositions of clinopyroxene above 1400 K, and lead to bulk thermal conductivity at saturation being 2.4 W m⁻¹ K⁻¹. Pressure deriviatives are predicted from models as ∂(ln k)/∥P = 4.2 to 4.7 %GPa⁻¹.