Sound velocity measurements in liquid Fe–S at high pressure: Implications for Earth's and lunar cores

The P-wave velocity (VP) of liquid Fe57S43 was measured up to 5.4GPa using an ultrasonic method combined with the synchrotron X-ray technique. The VP of liquid Fe57S43 showed little change with temperature, but increased almost linearly from 3105±11m/s to 3845±9m/s with increasing pressure from 2.4...

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Published in:Earth and planetary science letters 2013-01, Vol.362, p.182-186
Main Authors: Nishida, Keisuke, Kono, Yoshio, Terasaki, Hidenori, Takahashi, Suguru, Ishii, Miho, Shimoyama, Yuta, Higo, Yuji, Funakoshi, Ken-ichi, Irifune, Tetsuo, Ohtani, Eiji
Format: Article
Language:English
Subjects:
Approximation
core
Earth
Fe–S
high pressure
Iron
liquid
Liquids
Low pressure
Lunar core
Sound velocity
Synchrotrons
ultrasonic
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Summary:The P-wave velocity (VP) of liquid Fe57S43 was measured up to 5.4GPa using an ultrasonic method combined with the synchrotron X-ray technique. The VP of liquid Fe57S43 showed little change with temperature, but increased almost linearly from 3105±11m/s to 3845±9m/s with increasing pressure from 2.4 to 5.4GPa. This can be approximated by VP [m/s]=2664+205.4×P, where P is the pressure in GPa. The VP of liquid Fe57S43 at 2.4–5.4GPa was significantly lower than that of pure liquid Fe. However, the pressure dependence of VP of the liquid Fe57S43 was markedly higher than that of pure liquid Fe. The marked difference in the pressure dependences of VP between pure liquid Fe and liquid Fe57S43 may cause VP crossover at around 7GPa. As a result, the VP of liquid Fe57S43 would become higher than that of pure liquid Fe at pressures higher than 7GPa. Thus, S decreases VP at low pressures such as those of the lunar outer core, but would increase it at the high pressures of the Earth's outer core. Assuming the lunar core consists of a liquid Fe–FeS outer core and a solid Fe inner core, the expected VP in the lunar outer core ranges from 3756 to 4230m/s. ► The VP of liquid Fe57S43 was measured up to 5.4GPa using ultrasonic method. ► The VP showed negligible temperature dependence. ► The pressure dependence of VP was markedly higher than that of pure liquid Fe. ► Sulfur decreases VP of liquid Fe at pressures of the lunar core. ► Sulfur would increase VP of liquid Fe at the pressures of the Earth's core.
ISSN:0012-821X
1385-013X
DOI:10.1016/j.epsl.2012.11.042