Potassium ground-state scattering parameters and Born-Oppenheimer potentials from molecular spectroscopy

We present precision measurements with MHz uncertainty of the energy gap between asymptotic and well bound levels in the electronic ground state X (1)Sigma(+)(g) of the K-39(2) molecule. The molecules are prepared in a highly collimated particle beam and are interrogated in a Lambda-type excitation scheme of optical transitions to long range levels close to the asymptote of the ground state, using the electronically excited state A (1)Sigma(+)(u) as the intermediate one. The transition frequencies are measured either by comparison with I-2 lines or by absolute measurements using a fs-frequency comb. The determined level energies were used together with Feshbach resonances from cold collisions of K-39 and K-40 reported from other authors to fit ground state potentials. Precise scattering lengths are determined and tests of the validity of the Born-Oppenheimer approximation for the description of cold collisions at this level of precision are performed.