Matthew Wolford inspects the Electra argon- fluoride (ArF) laser US Navy/Jonathan Steffen
The US Naval Research Laboratory (AFL) is developing an Argon Fluoride (ArF) laser that may one day make fusion power a practical commercial technology. The wide-bandwidth ultraviolet laser is designed to have the shortest laser wavelength that can scale up to power a self-sustaining fusion reaction.
To call fusion energy a game changing technology is like saying that fire might one day find a practical application. In fact, the ability to generate clean energy from hydrogen in any desired quantity over any foreseeable timescale would fundamentally alter civilization in ways we can't imagine.
The problem is fusion power is like the proverbial rabbit pie recipe that begins with, "First, catch your rabbit." Though we can recreate the conditions found inside the Sun to produce fusion reactions on Earth, these are relegated to hydrogen bombs and laboratory experiments where it takes more energy to create the fusion reaction than we can get out of it – though recent experiments are getting much closer to turning that around.
The Nike laser lens array focusing 44 krypton-fluoride (KrF) laser beams onto targets NRLThe goal for the past 75 years has been to produce temperatures in excess of 100 million degrees C (180 million degrees F) and the pressure needed to ignite the fusion reaction and generate enough surplus energy to sustain it. That in itself would be a major achievement, but the technology also has to be able to sustain the reaction indefinitely, while also being cheap enough and the reactor small enough for it to be practical. READ MORE...
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