Researchers have observed individual atoms interacting for the first time

Researchers have observed individual atoms interacting for the first time:

For the first time, researchers have managed to capture images of individual potassium atoms distributed on an optical lattice, providing them with a unique opportunity to see how they interact with one another.

While capturing these images is a feat in itself, the technique could help researchers to better understand the conditions needed for individual atoms to come together and form exotic states of matter like superfluids and superconductors.

“Learning from this atomic model, we can understand what’s really going on in these superconductors, and what one should do to make higher-temperature superconductors, approaching hopefully room temperature,” team member Martin Zwierlein from MIT said in a statement.

To capture the images, the team took potassium gas, and cooled it only a few nanokelvins – just above absolute zero. To put that into perspective, 1 nanokelvin is -273 degrees Celsius (-460 degrees Fahrenheit).

At this extremely cold temperature, the potassium atoms slow to a crawl, which allowed the team to trap some of them inside a two-dimensional optical lattice – a complex series of overlapping lasers that can trap individual atoms inside different intensity waves.

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