A new method to cool gases of polar molecules to near absolute zero paves the way for studying quantum effects of exotic forms of matter
Researchers at the Max Planck Institute of Quantum Optics have developed a novel cooling technique for molecular gases. It makes it possible to cool polar molecules down to a few nanokelvin. The trick used by the team in Garching to overcome this hurdle is based on a rotating microwave field. It helps to stabilise the collisions between the molecules during cooling by means of an energetic shield. In this way, the Max Planck researchers succeeded in cooling a gas of sodium-potassium molecules to 21 billionths of a degree above absolute zero. In doing so, they set a new low-temperature record. ...