Rocking the thermometer at 4 trillion degrees Celsius, a subatomic soup that might reflect the state of matter shortly after the Big Bang has set a new world record: It's the hottest substance ever created in a lab. The previous record, recorded at Sandia National Lab in 2006, was a balmy 2 billion degrees Celsius. The core of the sun burns at a chill 15 million degrees.
The uber-hot brew is created at Brookhaven National Laboratory on Long Island. The lab's Relativistic Heavy Ion Collider, RHIC, accelerates gold particles to nearly the speed of light before slamming them together to see what they're made of. When the energy of the colliding gold particles is transferred into heat, the temperature soars. Scientists with the Pioneering High Energy Nuclear Interaction eXperiment, PHENIX, who took the temperature measurement, announced a value of 4 trillion, but that's only an average over the lifetime of the substance. At its hottest stage, the infusion may reach 7 trillion degrees Celsius.
"Matter as we know it shouldn't exist at that temperature," says PHENIX Spokesperson Barbara Jacak. And from what they can tell, it doesn't really. The protons and neutrons making up the gold nuclei appear to melt in the intense heat, and leave behind porridge made of the subatomic particles quarks and gluons. Jacak describes the resulting substance as "a liquid-like plasma."
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But those words can't really describe the nature of the soupy mess. Nothing can, yet. Particle physicists, cosmologists, and even string theorists are all trying to understand why quarks and gluons, the building blocks of protons and neutrons (which in turn build atoms), behave this way at such high temperatures. Why doesn't the mixture turn into a gas, like water turns to steam at 100 degrees Celsius? How hot would it have to be to vaporize? And if the universe was filled with this liquid goop shortly after the Big Bang, how did it eventually turn into stars, planets, and people? ...
Long Island residents might be wondering how PHENIX doesn't burn a hole in the Earth with their flaming concoction, or if the group could harness the heat to run a generator. But the substance only exists for one trillionth of a trillionth of a second, and is smaller than a single atom. Nonetheless, trying to conceive of just how hot that tiny drizzle of particle goulash gets is enough to fry your brain.
via The Hottest Science Experiment on the Planet | Subatomic Particles | DISCOVER Magazine.
The back up Blog of the real Xenophilius Lovegood, a slightly mad scientist.
Tuesday, February 16, 2010
The Hottest Science Experiment on the Planet
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I believe it was David Hudson who discovered the monatomic state of gold. Trying to get it back to normal gold produced vast amounts of heat and radiation. He called it the female form of elements. "You don't ever want to try and make them do something they don't want to!"
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