Simultaneous deceleration of atoms and molecules in a supersonic beam Article Swipe

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Physics Supersonic speed Atomic physics Metastability Quadrupole Molecule Trapping Zeeman effect Argon Magnetic trap Laser cooling Molecular beam Beam (structure) Laser Plasma Magnetic field Nuclear physics Mechanics Optics Ecology Biology Quantum mechanics

Nitzan Akerman , Michael Karpov , Liron David , Etay Lavert-Ofir , Julia Narevicius , Edvardas Narevicius ·

YOU? · · 2015 · Open Access · · DOI: https://doi.org/10.1088/1367-2630/17/6/065015 · OA: W2129658067

A unique property of Zeeman effect based manipulation of paramagnetic particle’s motion is the ability to control velocities of both atoms and molecules. In particular the moving magnetic trap decelerator is capable of slowing and eventually trapping mixtures of both cold atoms and cold molecules generated in a supersonic expansion. Here we report the deceleration of molecular oxygen together with metastable argon atoms. The cold mixture with temperature below 1 K is slowed from an initial velocity of 430 m s ^−1 down to 100 m s ^−1 . Our decelerator spans 2.4 m and consists of 480 quadrupole traps. Our results pave the way for the study of sympathetic cooling of molecules by laser cooled atoms.