nanokelvins

Nanokelvins are extremely low temperatures, defined as one billionth of a Kelvin above absolute zero. This temperature is far colder than anything naturally occurring on Earth. Achieving temperatures in the nanokelvin range requires sophisticated laboratory equipment and techniques, typically involving laser cooling and magnetic trapping of atoms. These methods slow down the motion of atoms to near-complete stillness.

The primary applications of nanokelvin temperatures lie in fundamental physics research. At these frigid conditions, quantum

The pursuit of nanokelvin temperatures is driven by the desire to explore the most fundamental aspects of