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Thermonuclear weapons may be dangerous, but they're also a mystery.

This is why physicists at the U.S. Department of Energy's primary laser facility broke their own world record earlier this month when they generated more than 10 quadrillion watts of fusion power, according to a recent post on the scientific journal Nature. While the energy only lasted for a fraction of a second, it reached a scale equivalent to roughly 700 times the generating capacity of the entire US electrical grid at any given time!

However, unless this landmark reaction is repeated soon, the scientists may struggle to reproduce and verify the precise experiment, potentially stalling scientific efforts at the very edge of nuclear weapons research.

The breakthrough has helped raise spirits about the issue-prone National Ignition Facility (NIF), which aims to produce more energy than it requires to run, to achieve a sustained fusion reaction. The $3.5-billion facility in the Lawrence Livermore National Laboratory, California, was designed to investigate fusion reactions at the heart of thermonuclear weapons, not operate as a fully-fledged power plant. But in the wake of a U.S. ban on underground nuclear testing in 1992, the energy department suggested the NIF become part of an expansive Stockpile Stewardship Program, which tests the reliability of nuclear weapons without actually triggering a detonation. And with the latest laser-fusion breakthrough, scientists are beginning to believe the NIF might succeed at this purpose, not only for war, but peace, too.

 

"That's really the scientific question for us at the moment," said the Deputy Director Mark Herrman of Livermore, in the Nature report. "Where can we go? How much further can we go?" The NIF failed to achieve its initial goal of reaching a fusion ignition by 2012, since which scientists have worked to customize the facility, and optimize targets in the reaction chamber. The new record was a result of several changes throughout the labyrinthine system, from laser precision, to improved target-fabrication techniques, to diagnostics. This comes on the heels of decades of efforts to build a comprehensive program that can study the nuclear arsenal of the United States via supercomputers at NIF, in addition to other research facilities. In that time, scientists have tested explosives and nuclear materials and components.

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