Transverse stability in a Stark decelerator

The concept of phase stability in a Stark decelerator ensures that polar molecules can be accelerated, guided, or decelerated without loss; molecules within a certain position and velocity interval are kept together throughout the deceleration process. In this paper the influence of the transverse motion on phase stability in a Stark decelerator is investigated. For typical deceleration experiments—i.e., for high values of the phase angle ϕ₀—the transverse motion considerably enhances the region in phase space for which phase stable deceleration occurs. For low values of ϕ₀, however, the transverse motion reduces the acceptance of a Stark decelerator and unstable regions in phase space appear. These effects are quantitatively explained in terms of a coupling between the longitudinal and transverse motion. The predicted longitudinal acceptance of a Stark decelerator is verified by measurements on a beam of OH (X ²Π_3∕2,J=3∕2) radicals passing through a Stark decelerator.