Dynamic dipole polarizabilities for the low-lying triplet states of helium

Abstract

The dynamic dipole polarizabilities for the four lowest triplet states (2\,3S, 3\,3S, 2\,3P and 3\,3P) of helium are calculated using the B-spline configuration interaction method. Present values of the static dipole polarizabilities in the length, velocity and acceleration gauges are in good agreement with the best Hylleraas results. Also the tune-out wavelengths in the range from 400 nm to 4.2~μm for the four lowest triplet states are identified, and the magic wavelengths in the range from 460~nm to 3.5~μm for the 2\,3S 3\,3S, 2\,3S 2\,3P, and 2\,3S 3\,3P transitions are determined. We show that the tune-out wavelength of 2\,3S state is 413.038 28(3) nm, which corroborates the value of Mitroy and Tang (Phys. Rev. A 88, 052515 (2013)), and the magic wavelength around 1066 nm for the 2\,3S 3\,3P transition can be expected for precision measurement to determine the ratio of transition matrix elements (2\,3S 2\,3P) / (3\,3P 6\,3S).