Title of article
Inference of high thermal transport in the lower mantle from laser-flash experiments and the damped harmonic oscillator model
Author/Authors
Hofmeister، نويسنده , , Anne M.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
6
From page
201
To page
206
Abstract
Contact-free, laser-flash analysis (LFA) accurately (±2%) measures lattice thermal diffusivity (D) at high temperature (T). Conventional measurements of minerals underestimate D by ∼20% near 298 K due to interface resistance, although simultaneously existing direct radiative transfer artificially elevates D as T rises. Pressure (P) determinations possess these and other problems; however, reproduced values of ∂D/∂P agree the damped harmonic oscillator model. Models combined with new LFA data on perovskite compounds show that lattice thermal conductivity (klat) is high and independent of T, increasing from 7.5 to 30 W/m K (±25%) across the lower mantle (LM) due to compression. Diffusive radiative transfer is estimated from a recent model: For expected fine grain-size, spectral characteristics do not play a strong role, indicating that krad increases from ∼1 to ∼5 W/m K across the LM, estimated from olivine spectra.
gh greater accuracy through improved measurements is needed, our results demonstrate that the LM is an efficient conductor of heat. Even a low, adiabatic temperature gradient can carry the power inferred to run the dynamo. Mantle convection may be limited to above 670 km.
Keywords
Spectroscopy , Diffusive radiative transfer , laser-flash method , high temperature , thermal conductivity , Lower mantle , thermal diffusivity
Journal title
PHYSICS OF THE EARTH AND PLANETARY INTERIORS
Serial Year
2008
Journal title
PHYSICS OF THE EARTH AND PLANETARY INTERIORS
Record number
2305054
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