Magic wavelengths of Ca+ ion for linearly and circularly polarized light

Abstract

The dynamic dipole polarizabilities of the low-lying states of Ca+ for linearly and circularly polarized light are calculated by using relativistic configuration interaction plus core polarization (RCICP) approach. The magic wavelengths, at which the two levels of the transitions have the same ac Stark shifts, for 4s-4pj,m and 4s-3dj,m magnetic sublevels transitions are determined. The present magic wavelengths for linearly polarized light agree with the available results excellently. The polarizability for the circularly polarized light has the scalar, vector and tensor components. The dynamic polarizability is different for each of magnetic sublevels of the atomic state. Additional magic wavelengths have been found for the circularly polarized light. We recommend that the measurement of the magic wavelength near 850 nm for 4s-4p32,m=32,12 could be able to determine the oscillator strength ratio of f4p32 3d32 and f4p32 3d52.