Physics – Condensed Matter
Scientific paper
Jun 2007
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007aps..shk.m4007s&link_type=abstract
American Physical Society, 15th APS Topical Conference on Shock Compression of Condensed Matter, June 24-29,2007, abstract #M4.0
Physics
Condensed Matter
Scientific paper
Natural flaws in geologic materials result in heterogeneous pressure and temperature distributions upon shock compression. The effects of flaws are apparent in the thermal emission from shocked samples. We present emission temperature measurements from Columbia River Basalt using multi-band pyrometry (0.65 nm to 4.8 μm) and gated infrared imaging. After release from peak shock pressures between 9.5 and 45 GPa, free surface thermal emission temperatures range from 450 to >1250 K. The emission measurements show a departure from a quasi-single temperature surface between 10 and 14 GPa, where, at pressures well below that required for bulk melting of basalt, emission temperatures >1600 K are detected. In this pressure range, partial melting in fractures and pore spaces produce a bimodal temperature distribution comprised of a continuum and hot spots. The inferred hot spot distributions are in excellent agreement with petrographic studies of localized melting and generation of high pressure phases in basaltic meteorites from Mars shocked to similar pressures. However, the measured continuum temperatures in Columbia River basalts are 100 to 400 K higher than inferred for Martian meteorites.
Furlanetto Michael
Kennedy Gregory
Obst Andrew
Seifter Achim
Stewart Sarah
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