Mathematics – Logic
Scientific paper
Mar 1998
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1998icar..132..185a&link_type=abstract
Icarus, Volume 132, Issue 1, pp. 185-195.
Mathematics
Logic
23
Scientific paper
Spectral reflectivity data and its location near an orbital resonance suggest that Asteroid 6 Hebe may be the source body for H-chondrites, the second largest meteorite group. Recent spacecraft images of asteroids and theoretical modeling indicate that, contrary to previous ideas, asteroids can retain thick regoliths. We model the thermal evolution of a Hebe-sized object coated with a thick insulating regolith and heated by ^26Al and other long-lived radionuclides. The heat conduction equations for spherically symmetric objects were solved using finite-difference approximations. We assumed a three-layer structure with regolith and megaregolith overlying a rocky core. The three layers differed in bulk density, porosity, and thermal conductivity. Interior peak temperatures were set to match metamorphic temperatures of H6 chondrites. The regolith has a major influence on thermal history, and the results are very different from those for a simple rocky body published by various authors. Regolith insulation produces a uniform interior peak temperature of ~1250 K and moves the petrographic type boundaries close to the surface of the parent body. Petrologic types 3-6 can be produced within 10 km of the asteroid's surface with only moderate (~1 km) regolith thicknesses. The calculations indicate that H4-H6 formation would be consistent with the cooling rate estimates and Pb-Pb formation ages if the material originated in the near surface regions. We suggest that many if not all H-chondrites could have been formed in a megaregolith and thick regolith. Their observed properties are consistent with this environment, especially the abundance of regolith breccias and H-chondrites of all petrologic types with implanted solar wind gases.
Akridge Glen
Benoit Paul H.
Sears Derek W. G.
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