Colder than Ice: Developing an Improved Quantum Degenerate Cooling Method
February 12, 2026
February 12, 2026
STORRS, Connecticut, Feb. 12 -- The University of Connecticut posted the following news:
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Colder than Ice: Developing an Improved Quantum Degenerate Cooling Method
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If you think about gaseous atoms, you probably picture them bouncing freely through space.
This constant motion is the natural state of atoms in the gas state. But when gases are cooled to or near absolute zero (-460 degrees Fahrenheit), they stop moving, enterin . . .
* * *
Colder than Ice: Developing an Improved Quantum Degenerate Cooling Method
*
If you think about gaseous atoms, you probably picture them bouncing freely through space.
This constant motion is the natural state of atoms in the gas state. But when gases are cooled to or near absolute zero (-460 degrees Fahrenheit), they stop moving, enterin . . .