杏吧原创

Is Earth’s missing xenon hiding in iron’s hot embrace?

It seems that xenon, a normally inert gas, can form chemical bonds with iron under the hot and heavy conditions in Earth's core

IS EARTH鈥橲 core playing cupid? It seems that xenon, a normally inert gas, can pair up with iron under the extreme conditions there. This could explain why our planet appears to lack xenon.

The atmosphere contains just 1/20th of Earth鈥檚 expected total xenon, as revealed by analyses of meteorites that should have a similar make-up to Earth.

To see if the missing xenon is trapped in the planet鈥檚 core, of Jilin University in Changchun, China, and colleagues used a supercomputer to model the element鈥檚 reactivity. Xenon would not normally react with iron 鈥 which makes up 85 per cent of the core 鈥 but at pressures of about 300 gigapascals and temperatures of about 6000 掳C, found in Earth鈥檚 core, the two seemed attracted to one another.

A compound can form from one xenon and three iron atoms. Because it has lower energy than the sum of the pure elements鈥 energies under those conditions, it is the preferred state ().

Ma鈥檚 team found that xenon could even react with nickel, a minor component of the core. 鈥淓arth鈥檚 core is a natural reservoir for xenon,鈥 Ma says. So it could be that iron鈥檚 hot embrace is to blame for Earth鈥檚 missing xenon.

Topics: Temperature