The high-pressure structure of kaersutite and its geological importance
Article
Zhu, XP, Qin, S, Han, BF et al. (2004). The high-pressure structure of kaersutite and its geological importance
. 20(6), 1456-1460. 10.0000/388c383f7a8c4063a570de1085dbf357
Zhu, XP, Qin, S, Han, BF et al. (2004). The high-pressure structure of kaersutite and its geological importance
. 20(6), 1456-1460. 10.0000/388c383f7a8c4063a570de1085dbf357
The in-situ tigh-pressure structure of natural kaersutite, obtained from the mantle xenolith in alkali basalt of southwestern Tiandhan in Xinjiang, has been studied using synchrotron radiation energy dispersive X-ray diffraction and diamond anvil cell at the pressures up to 25.4 GPa. At room temperature, the lattice constants a. b, c of kaersutite are compressed continuously with increasing pressure and at the pressure of 18.9 GPa, a phase transition occurs probably due to the dehydration. Considering the geological occurrence of kaersutite, the experimental results indicate that kaersutite could be stable with rather a depth in the upper mantle, and it must be a rapid process when kaersulite is brought to the earth's surface. In addition, this research would be potentially helpful for the understanding of high-pressure behaviors of other Ti-bearing minerals.
