High-resolution optical spectroscopy of Os−with a view to laser cooling of atomic anions

Atomic anions are generally not amenable to optical spectroscopy because they are loosely bound systems and rarely have bound excited states. Until recently, there was only one known negative ion with a strong bound–bound electronic transition, the osmium anion Os−. The electric-dipole transition between the F9/2 ground and DJ excited state of this ion provides unique insight into the structure of atomic anions. In addition, it may enable the preparation of ultracold ensembles of negative ions. Laser excitation of the electricdipole transition in Os− ions could be used to laser-cool them to microkelvin temperatures. If demonstrated to be successful, the technique would allow the cooling of any species of negatively charged ions – from subatomic particles to molecular anions – to ultracold temperatures by sympathetic cooling. We have been investigating the bound–bound electric-dipole transition in Os− by high-resolution laser spectroscopy with a view to using it for the first laser cooling of negative ions. The principle of the method, its potential applications, as well as experimental results are presented.