Physicists capture images of atoms flowing along a boundary without resistance despite obstacles in their path
Physicists capture images of atoms flowing along a boundary without resistance despite obstacles in their path
Typically, electrons are free agents that can move through most metals in any direction. When they encounter an obstacle, the charged particles experience friction and scatter randomly like colliding billiard balls.
"There is no friction. There is no slowing down, and no atoms leaking or scattering into the rest of the system. There is just beautiful, coherent flow."
"These atoms are flowing, free of friction, for hundreds of microns," Fletcher adds. "To flow that long, without any scattering, is a type of physics you don't normally see in ultracold atom systems."
This effortless flow held up even when the researchers placed an obstacle in the atoms' path, like a speed bump, in the form of a point of light, which they shone along the edge of the original laser ring. Even as they came upon this new obstacle, the atoms didn't slow their flow or scatter away, but instead glided right past without feeling friction as they normally would.