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Anderson & Ahrens 1994
Anderson, W.W. and Ahrens, T.J. (1994). An equation of state for liquid iron and implications for the Earth’s core. Journal of Geophysical Research 99: doi: 10.1029/93JB03158. issn: 0148-0227.

An equation of state is presented for liquid iron based on published ultrasonic, thermal expansion, and enthalpy data at 1 bar and on pulse-heating and shock wave compression and sound speed data up to 10 Mbar. The equation of state parameters, centered at 1 bar and 1811 K (the normal melting point of iron), are density, &rgr;0=7019 kg/m3, isentropic bulk modulus, KS0=109.7 GPa, and the first- and second-pressure derivatives of KS, K'S0=4.66 and K'S0=-0.043 GPa-1. A parameterization of the Gr¿neisen parameter &ggr; as a function of density &rgr; and specific internal energy E is &ggr;=&ggr;0+&ggr;'(&rgr;/&rgr;0)'(E-E0) where &ggr;0=1.735, &ggr;'=-0.130 kg/MJ, n=-1.87, and E0 is the internal energy of the liquid at 1 bar and 1811 K. The model gives the temperature dependence of &ggr; at constant volume as (∂&ggr;/∂T)V1 bar,1811K=8.4¿10-5K-1. The constant volume specific heat of liquid Fe at core conditions is 4.0--4.5 R. The model gives excellent agreement with measured temperatures of Fe under shock compression. Compression with a preliminary reference Earth model indicates that the light component of the core does not significantly affect the magnitude of the isentropic bulk modulus of liquid Fe but does decrease its pressure derivative by ~10%. Pure liquid Fe is 3--6% more dense than the inner core, supporting the presence of several percent of light elements in the inner core.

BACKGROUND DATA FILES

Abstract

Keywords
Mineral Physics, Equations of state, Mineral Physics, High-pressure behavior, Mineral Physics, Physical thermodynamics, Tectonophysics, Core processes
Journal
Journal of Geophysical Research
http://www.agu.org/journals/jb/
Publisher
American Geophysical Union
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