On July 5, 2012, the world’s largest laser fired a record shattering shot that generated more power than the entire United States does at any given moment. The laser, located in Livermore, California, is housed in a building the size of three football fields dubbed the National Ignition Facility (photo above). The NIF laser is an extraordinary machine of precision. Each experimental shot requires the coordination of 60,000 control points including motorized mirrors and lenses, sensors, amplifiers, cameras and more, ultimately targeting a point about the size of a pencil eraser. 192 beams of optically amplified, electromagnetic radiation-emitting light, that all fire within a few trillionths of a second, combine to produce 500 terawatts of peak power and 1.85 megajoules of ultraviolet laser light.
Funded by the National Nuclear Security Administration (NNSA), the NIF’s primary mission is to provide a better understanding of the physics behind nuclear reactions. However, this remarkable technology is also helping to conquer the physical barriers of scientific observation. The laser can generate temperatures of more than 100 million degrees and pressures more than 100 billion times Earth’s atmosphere. These conditions can potentially simulate the extreme states of matter found in the cores of planets, stars and other celestial objects, giving astronomers and physicist an unprecedented view of stellar mechanics. One hopeful goal for the NIF laser is to develop an understanding of fusion ignition, the point at which nuclear fusion (the process by which stars burn) becomes self-sustaining. Achieving laboratory fusion ignition would theoretically allow scientists to provide abundant and sustainable clean energy through nuclear fusion by converting mass into incredible amounts of energy. Experts still speculate on the timeline of such achievements, noting the technical challenges of putting star stuff in a container.
For more images and videos of the NIF laser, including a fascinating Ted Talk by Dr. Ed Moses, click the second photo above!
AstroPress 
wow! It will be so interesting to see if experts are able to achieve their goal and help provide the world with clean energy. Do you know how much the laser cost to make?
Well, the NIF site lists the cost of developing, constructing, etc. the laser compound at $3.54 billion – although I can guarantee this figure is bare bones minimum. Other’s will mention the total tab of building and running the facility as of October of 2013 is up to $7 billion (http://spectrum.ieee.org/energywise/energy/nuclear/national-ignition-facility-mother-of-all-boondoggles). Many are criticizing the $300 million-a-year cost it takes to run, staff and maintain the facility… but i’d rather we hired some competent engineers before we blow up stars @ ground level.