Physicists Used World’s Largest Laser To Crush A Diamond To Study Planet Formation

The world’s largest laser machine was appeared in American science fiction action movie Star Trek Into Darkness. And lately, physicists have used this world’s largest laser to crush a diamond, which is 50 million times harder than Earth’s atmosphere presses down on us, in order to study planet formation.


world's-largest-laser

Diamond consists of carbon, and in our solar system oxygen is twice as common and makes up silicate rocks, a major component of the sun’s planets. Still, scientists have speculated that diamond worlds may exist elsewhere. If a solar system arises with more carbon than oxygen, then carbon should soak up the oxygen by forming carbon monoxide, leaving excess carbon to create carbon planets—which, under pressure, become diamond worlds. Neptune is one of those planets that they suspect has a diamond core. But this planet, as well as other Neptune-sized planets, has an extremely dense core – something that is not easily recreated on Earth.

So, in order to study the formation of planets, inside a target chamber at the US National Ignition Facility – which was featured in the newest Star Trek Into Darkness movie – physicists condensed carbon crystal to the core pressure of Saturn – 14 times that at the center of the Earth. Note that, the laser measures more than 30 feet long and can be focused on a millimeter target.

Laser Crushing A Diamond

Physicists were able to complete a process known as “dynamic ramped compression.” This means they were able to slowly and evenly compress the diamond in such a way as to not liquify it and instead compressed it to the density of lead. To be more specific, for a billionth of a second, the diamond, which is normally 3.25 times denser than water, became denser than lead and 12.03 times denser than water.

Dr. Ray Smith from Lawrence Livermore National Laboratory in California, who is also the lead author of the study said, “We don’t know what lies within the core of Jupiter or Saturn but now for the first time we now have the ability to study how matter exists under these extreme conditions of pressure and temperature. That’s a record. No one’s compressed diamond to that extent before. Our experiments provide a method for recreating conditions within the cores of giant gas planets – both within our solar system and beyond.”

According to other physicists, this study will help them better understand how material behaves at the great pressures that prevail deep inside giant planets.

Source: Nature
Thanks To: Huffington Post

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Anatol

Anatol Rahman is the Editor at TheTechJournal. He loves complicated machineries, and crazy about robot and space. He likes cycling. Before joining TheTechJournal team, he worked in the telemarketing industry. You can catch him on Google+.

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