Scientists: rivers of diamonds outside the planet

Hydrogen and carbon are transformed into diamonds thousands of kilometers deep in the hollows of Uranus and Neptune.

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It is possible that some planets are able to form rivers of diamonds, according to a study published Friday that used a simple type of plastic to recreate the conditions that supposedly led to the presence of diamonds in the interior of the planets Uranus and Neptune.

Scientists hypothesized that enormous pressures transform hydrogen and carbon into diamonds, flowing thousands of kilometers below the gaseous surfaces of the two icy giants.

The study published in the journal "Science Advances" indicated that the friction of oxygen with this mixture facilitates the formation of diamonds.

Dominic Krause, a physicist from the German research laboratory "HZDR" and one of the authors of the study, explained that these rivers are probably of a very special type.

Krause explained that diamonds likely formed from a "hot, dense liquid", before slowly flowing into the rocky region in the middle of the two planets, at a depth of 10,000 km below their surfaces.

Then the liquid spreads out in layers "at a distance of hundreds of kilometers or more".

Scientists from the laboratory "HZDR", the University of "Rostock" in Germany and "Ecole Polytechnic" of France are trying to recreate the conditions in which diamond rivers form.

They used a simple type of plastic that plays a role in mixing the necessary components to form diamonds, which are carbon, hydrogen and oxygen, and this type of plastic is the same used in the manufacture of soft drink bottles.

Then they exposed it to heat by using a powerful laser in the Slack Laboratory in Stanford, USA.

Krause pointed out that the nano-diamonds that formed were seen through very simple X-rays, but with an amazing density, and it is so small that it is impossible to see with the naked eye.

Oxygen (which is present in large quantities in these two planets) facilitated the formation of diamonds.

Scientists believe that the diamonds that form on these two planets may be larger than that of the component in tests carried out on Earth, and their size may be equivalent to millions of carats, according to a statement published with the study.

This discovery paves the way for a new method to produce nanodiamonds that are increasingly used in many fields including medical probes, unconventional surgery or quantitative processing techniques.

The industrial method for manufacturing nanodiamonds is to subject carbon-rich materials to very powerful explosions.

"Production of nanodiamonds with lasers is a much cleaner and more easily controlled method," said Benjamin Ofori-Okai, a Slack scientist and one of the study's authors.

As for diamonds formed on Neptune and Uranus, the two farthest planets in the solar system, future space missions will have to wait to find out more information about it.

Only one NASA probe, Voyager 2, has so far been sent to the two icy planets.

 Diamonds form from a "hot, dense liquid" before slowly flowing into the rocky region in the middle of the two planets, 10,000 km below their surfaces.

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