• Title of article

    Scale aspects of heat transport in the diamond anvil cell, in spectroscopic modeling, and in Earthʹs mantle: Implications for secular cooling

  • Author/Authors

    Hofmeister، نويسنده , , Anne M.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2010
  • Pages
    10
  • From page
    138
  • To page
    147
  • Abstract
    Examining length and time scales reveals ruinous problems in diverse determinations of thermal conductivity (k) involving the diamond anvil cell (DAC). (1) Conditions in laboratory experiments are optically thick (diffusive) for low-frequency phonons, but optically thin (ballistic) for high-frequency photons. Because speeds of photons are about ×105 those of phonons, ballistic photons transport heat over the short length and time scales of pulse-heating measurements in the DAC intended to measure phonons. Ballistic transport was confirmed by conducting pulse-heating experiments under various conditions. Not accounting for this time-dependent effect produces fallacious values for the lattice contribution to k. (2) In DAC optical spectroscopy, strong refraction was misinterpreted as sample absorption and its affect on path length went unnoticed, resulting in invalid calculations of the radiative diffusive component of k. Better estimates of lower mantle k are summarized. Scaling aspects point to the controls exerted by radiative transfer early in Earthʹs history and the importance of mantle layers to Earthʹs present thermal state. Diffusion of radiation is fast, making retention of primordial heat improbable: thus todayʹs Earth is in quasi-steady-state, wherein its emitted heat is derived solely from current radiogenic contents.
  • Keywords
    Length-scale physics , thermal diffusivity , Thermal models , Ballistic transport , diffusion , diffraction , Lower mantle , Secular cooling
  • Journal title
    PHYSICS OF THE EARTH AND PLANETARY INTERIORS
  • Serial Year
    2010
  • Journal title
    PHYSICS OF THE EARTH AND PLANETARY INTERIORS
  • Record number

    2305765