Detection of Long-Lived Complexes in Ultracold Atom-Molecule Collisions

Abstract

We investigate collisional loss in an ultracold mixture of 40K87Rb molecules and 87Rb atoms, where chemical reactions between the two species are energetically forbidden. Through direct detection of the KRb2* intermediate complexes formed from atom-molecule collisions, we show that a 1064 nm laser source used for optical trapping of the sample can efficiently deplete the complex population via photo-excitation, an effect which can explain the universal two-body loss observed in the mixture. By monitoring the time-evolution of the KRb2* population after a sudden reduction in the 1064 nm laser intensity, we measure the lifetime of the complex (0.39(6) ms), as well as the photo-excitation rate for 1064 nm light (0.50(3) μs-1(kW/cm2)-1). The observed lifetime is 105 times longer than recent estimates based on the Rice-Ramsperger-Kassel-Marcus statistical theory, which calls for new insight to explain such a dramatic discrepancy.