The core of the Earth with a radius of 3.5 thousand kilometers is under the mantle at a depth of 2.9 thousand kilometers.
Scientists from Sweden, China and Chile have determined the likely type of the crystal lattice, which is stable phase of iron in the inner core of the Earth. A study published in the journal Nature Geoscience.
The solid inner core of the planet, according to the authors, formed a body-centered cubic lattice (one cell of eight atoms spaced at the corners of a cube and one in its center).
To such conclusions scientists came after computer simulation (molecular dynamics method) conditions in the bowels of the planet with a package VASP (Vienna Abinitio Simulation Package). Thus, the specialists were able to track the evolution of the SuperCell, consisting of 1024 atoms of iron being at a temperature of 6 thousand Kelvin and pressure of 360 GPA.
According to the authors of the study, body-centered cubic lattice of hard core explains the observed anisotropy of the velocity of propagation of elastic waves through the inner core and its low shear modulus.
The core of the Earth with a radius of 3.5 thousand kilometers is under the mantle at a depth of 2.9 thousand kilometers from the planet’s surface. It is formed by a liquid outer layer thickness of 2.2 thousand kilometers and the solid inner core with a radius of 1.2 thousand kilometers. Its main components iron and Nickel.
The alternative hypothesis is that the Earth formed face-centered cubic lattice in one cell of eight atoms spaced at the corners of the cube, while the other six are in the centers of its sides.
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