Rydberg-Stark deceleration of atoms and molecules

Abstract

The large electric dipole moments associated with highly excited Rydberg states of atoms and molecules make gas-phase samples in these states very well suited to deceleration and trapping using inhomogeneous electric fields. The methods of Rydberg-Stark deceleration with which this can be achieved are reviewed here. Using these techniques, the longitudinal motion of beams of atoms and molecules moving at speeds as high as 2500~m/s have been manipulated, with changes in kinetic energy of up to | Ekin|=1.3×10-20~J (| Ekin|/e=80~meV or | Ekin|/hc=650~cm-1) achieved, while decelerated and trapped samples with number densities of 106--107~cm-3 and translational temperatures of 150~mK have been prepared. Applications of these samples in areas of research at the interface between physics and physical chemistry are discussed.