Physics
Scientific paper
Sep 2004
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2004pepi..146..483h&link_type=abstract
Physics of the Earth and Planetary Interiors, Volume 146, Issue 3-4, p. 483-495.
Physics
12
Scientific paper
Diffusion of heat by radiation in the mantle has previously been associated with absorption of light by Fe2+. The near-IR absorptions of structurally incorporated OH- provide another mechanism to convert the energy of photons into lattice vibrations. The effective diffusive radiative thermal conductivity due to protonation (krdf,wet) may be important within the mantle because low absorption strengths, as expected for trace to minor OH- contents, allow light to travel long distances in the medium. Available calibrations of band strength with OH- content are used to develop a formula for krdf,wet as a function of temperature, grain size, and hydroxyl concentration that is generally applicable to mantle phases. These results are compared to new data on the phonon contribution for olivine and to calculations of Fe2+ radiative transfer. As T increases, krdf,wet increases. As OH- content increases, krdf,wet initially increases, reaches a maximum near 100-1000ppm hydroxyl content as H2O, and then decreases at higher concentrations. A similar dependence on grain size exists, with the maximum krdf,wet near d ~ 1cm. Grain sizes and OH- contents of hydrous upper mantle samples foster radiative transport via protonation. For example, at 1500K, sub-cm grain sizes with ~10-100ppm H2O, provide krdf,wet that is ~1/4 of krdf arising from the combined effect of overtones and Fe2+ transitions, and ~1/8 of the lattice contribution to k of olivine. Given that OH- concentrations vary among mantle minerals, the above results suggest that mantle heat flow is heterogeneous and anisotropic. The dependence of both krdf and viscosity on grain size and hydration suggests that the dynamical behavior in or near subducting slabs will be complex.
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