Thiago Olson is a new Radioactive Boy Scout:
For two years, Olson researched what he would need and scrounged for parts from eBay and the hardware store. Flanges and piping? Check. High-voltage X-ray transformer? Check. Pumps, deuterium source, neutron bubble dosimeter? Check, check, check. “I have cross-country and track, so during those seasons I don’t have much time to work on it,” says Olson, a high school senior in Michigan. “It’s more of a weekend project.” Last November the machine finally delivered the hallmark of success: bubbles in the dosimeter. The bubbles indicate the presence of neutrons, a by-product of fusion — an energy-releasing process in which two hydrogen nuclei crash together and form a helium nucleus. Fusion is commonplace in stars, where hydrogen nuclei fuse in superhot plasma, but temperatures that high are hard to achieve on Earth. Still, the prospect of creating all this energy while forming only nonradioactive helium and easily controlled neutrons has made harnessing fusion one of the most sought-after and heavily funded goals in sustainable energy.Olson’s apparatus won’t work for generating commercial power because it takes more energy to run than it produces. But he has succeeded in creating a “star in a jar,” a tiny flash of hot plasma. “The temperature of the plasma is around 200 million degrees,” Olson says modestly, “several times hotter than the core of the sun.”
The original radioactive boy scout was David Hahn, who built a crude breeder reactor in his backyard in 1994.