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Scientists nearly bring Molecules to Absolute Zero at 500 nanokelvins

Cambridge, MA – A team of physicists at MIT has cooled molecules of sodium-potassium (NaK) to the brink of absolute zero. Researchers have brought the molecules to a temperature of 500 nanokelvins, which is more than a million times colder than outer space and the coldest temperature at which any molecule has ever been measured.

When the temperature of matter is that close to absolute zero, its movement nearly comes to a stop. The behavior of the molecules also starts to differ, as they may exhibit quantum effects. However, cooling down molecules to such low temperatures is difficult, far more difficult than individual atoms.

In order to cool the NaK molecules to such a low temperature, the researchers at MIT used lasers and evaporative cooling to bring individual atoms of sodium and potassium close to absolute zero. They then used a mechanism called “Feshbach resonance” to bond the atoms together, even though sodium and potassium atoms typically repel one another.

“While molecules are normally full of energy,” lead researcher Martin Zwierlein explained, “The ultra-cold molecules have been effectively stilled – cooled to average speeds of centimeters per second and prepared in their absolute lowest vibrational and rotational states.” The molecules had a lifetime of 2.5 seconds, which was surprisingly long. They also exhibited strong imbalances in electric charge.

Zwierlein continues to explain that ultra-cold molecules can create a variety of different states of matter. Thus far in the study, this result has been predicted but not yet seen, but Zwierlein says, “We might not be far from seeing these effects,” which is exciting news for physicists.

Categories: Science
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