Accurate determination of black-body radiation shift, magic and tune-out wavelengths for the 6S1/2 5D3/2 clock transition in Yb+

We present precise values of the dipole polarizabilities (α) of the ground and metastable states of Yb+, that are important in reducing systematics in the clock frequency of the transition. The static values of α for the ground and states are estimated to be and , respectively, while the tensor contribution to the state as compared to the experimental value . This corresponds to the differential scalar polarizability value of the above transition as −7.8(5) in contrast to the available experimental value −6.9(1.4) J m2 V−2 . This results in the black-body radiation shift of the clock transition as Hz at the room temperature, which is large as compared to the previously estimated values. Using the dynamic α values, we report the tune-out and magic wavelengths that could be of interest to subdue systematics due to the Stark shifts and for constructing lattice optical clock using Yb+.