Angular and polarization correlations in two--photon decay of hyperfine 2s states in hydrogenlike ions

Abstract

The angular and polarization properties of the photon pair emitted in the two--photon decay of 2s hyperfine states in hydrogenlike ions are investigated within the relativistic Dirac framework and second order perturbation theory. The studied transitions are 2s1/2\,(F=1,0)1s1/2\,(F=1,0) in Hydrogen atom and 2s1/2\,(F=4,3)1s1/2\,(F=4,3) in hydrogenlike Uranium ion. Two different emission patterns are found: For non-spin-flip transitions, the angular correlation (i.e. the angular distribution of the emitted photons) is of the type 1+2θ, while the linear polarizations of the emitted photons are approximately parallel one another; For spin-flip transitions, the angular correlation is of the type 1-1/32θ, while the linear polarizations of the emitted photons are approximately orthogonal one another.