Today, researchers have unveiled the secrets of liquid iron under extreme conditions. By using a combination of experiments and computer simulations, the team has discovered that liquid iron is an incredibly complex material, even at extreme pressures and temperatures. The findings could have implications for a wide range of fields, from mineralogy and geophysics to nuclear engineering.

The team set out to investigate a phenomenon that has been puzzling scientists for decades: what happens to liquid iron under extreme conditions? By simulating the behavior of liquid iron at temperatures and pressures ranging from 10,000 to 100,000 times the atmospheric pressure at sea level, they were able to uncover its secrets.

The results revealed that liquid iron behaves differently under different conditions. At low temperatures, it behaves like a regular liquid, but at higher temperatures, it begins to form clusters of atoms. These clusters can grow into larger structures, which can form more complex structures at even higher temperatures.

The team’s findings could have implications for a range of fields, from mineralogy to geophysics to nuclear engineering. It could help researchers understand the behavior of materials under extreme conditions, and could even be used to design materials with specific properties.

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source: Phys.org