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World’s most powerful laser fires most powerful laser blast ever

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World’s most powerful laser fires most powerful laser blast ever
Published July 12, 2012
FoxNews.com



And you thought you saw fireworks on the 4th of July!

The largest laser system in the world was turned on for a fraction of a second July 5, and it unleashed the most powerful laser blast in history -- besting a record set mere months earlier.

The National Ignition Facility (NIF) -- a laser test facility at Lawrence Livermore National Laboratory in Livermore, Calif. -- turned on its 192 laser beams for a scant instant the day after the nation celebrated its birth, unleashing a record-setting 1.85-megajoule blast into a target chamber that delivered more than 500 trillion watts of power.

Five hundred terawatts is 1,000 times more power than the United States uses at any instant in time, the facility said.

Scientists celebrated the historic test, which created conditions in the laboratory that had previously only existed deep within the heart of a star.


“For scientists across the nation and the world who, like ourselves, are actively pursuing fundamental science under extreme conditions ... this is a remarkable and exciting achievement,” said Dr. Richard Petrasso, senior research scientist and division head of high energy density physics at the Massachusetts Institute of Technology.

The test bested a record set March 15, when NIF unleashed a record-setting 1.8-megajoule blast into a target chamber.

In the historic test, NIF's 192 lasers fired within a few trillionths of a second of each other onto a 2-millimeter-diameter target. Beyond its sheer power, the beam-to-beam uniformity was within 1 percent, making NIF not only the highest energy laser of its kind but the most precise and reproducible.

“NIF is becoming everything scientists planned when it was conceived over two decades ago,” NIF director Edward Moses said.

“Scientists are taking important steps toward achieving ignition and providing experimental access to user communities for national security, basic science and the quest for clean fusion energy.”

In fission, atoms are split and the massive energy released is captured. NIF aims for fusion, the ongoing energy process in the sun and other stars where hydrogen and helium nuclei are continually fusing and releasing enormous amounts of energy. In the ignition facility, beams of light converge on pellets of hydrogen isotopes to create a similar, though controlled, micro-explosion.

As the beams move through a series of amplifiers, their energy increases exponentially. From beginning to end, the beams' total energy grows from one-billionth of a joule to a potential high of four million joules, NIF said -- a factor of more than a quadrillion.

And it all happens in about five millionths of a second.

Because the laser is on for the merest fraction of a second, it costs little to operate -- between $5 and $20 per blast, spokeswoman Lynda Seaver told FoxNews.com in March, when an earlier test set the stage for the July 5 blast.

NIF’s managers hope by the end of the year to reach a break-even point, where the energy released is equal to if not greater than the energy that went into the blast.

“We have all the capability to make it happen in fiscal year 2012,”
 
Just imagine if they increase pulse width and maintain for a sufficient long time, it is a great ASAT weapon in making. And the components used will find their way in other technical fields increasing other's efficiency too.

Any information, what type of laser it is?
 
National Ignition Facility fires record laser shot
Powerful pulse a milepost on the way to fusion energy.
by Eric Hand
20 March 2012



The world’s largest laser has just put a little more zing in its zap. On 15 March, the 192 laser beams of the National Ignition Facility (NIF) at Lawrence Livermore National Laboratory in Livermore, California, fired a record 1.875-megajoule shot into the laser’s target chamber, surpassing its 1.8-megajoule design specification. The shot, which was just a demonstration and did not incorporate a target, nonetheless represents a milepost in an effort to get past the break-even point — ignition — in coaxing fusion energy from a tiny frozen fuel pellet.


“It’s a remarkable demonstration of the laser from the standpoint of its energy, its precision, its power, and its availability,” says Ed Moses, NIF director. He adds that the shot was 2.03 megajoules after passing through the final focusing lens — making the NIF the world’s first 2-megajoule ultraviolet laser. Final diagnostic and other optics reduced the energy to 1.875 megajoules at the centre of the target chamber.

Most of the NIF’s recent shots have maxed out at 1.6 megajoules. As recently as December, the team was still only 10% of the way towards creating the overall conditions for ignition. Moses declined to say when he will test the 1.875-megajoule capability on a target, but he says that the extra energy will allow more leeway in target designs. He adds that the damage on the laser optics was less than models predicted, and that the laser was able to fire another shot about 36 hours after the record-breaking one.
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Riccardo Betti, director of the Fusion Science Center at the University of Rochester in New York, says that the shot represents a “great performance” from the laser, but that it is unclear what effect the extra energy will have on the tiny, carefully designed targets.“The laser has been pretty much the star of the campaign — more so than the targets,” he says.

The NIF is racing to achieve ignition before the end of the fiscal year, when a two-year ignition campaign ends. A larger question for the field of laser fusion is who will support it as a possible energy source. The construction and operation of the NIF has been supported by the US Nuclear Weapons Complex, which uses the facility to test the physics of nuclear bombs, and the US Department of Energy’s fusion-energy budget goes almost entirely to an alternative approach that uses magnets rather than lasers to induce fusion.


Not giving too much info on the source. Looks to be the same laser as in the op but with a bit more OOOMPH !!
 
ultraviolet laser....interesting:drag:
 

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