Limitation of single-repumping schemes for laser cooling of Sr atoms

Abstract

We explore the efficacy of two single-repumping schemes, 5s5p \,3P2 - 5p2 \,3P2 (481\,nm) and 5s5p \,3P2 - 5s5d \,3D2 (497\,nm), for a magneto-optical trap (MOT) of Sr atoms. We reveal that the enhancement in the MOT lifetime is limited to 26.9(2) for any single-repumping scheme. Our investigation indicates that the primary decay path from the 5s5p \,1P1 state to the 5s5p \,3P0 state proceeds via the 5s4d \,3D1 state, rather than through the upper states accessed by the single-repumping lasers. We estimate that the branching ratio for the 5s5p \,1P1 5s4d \,3D1 5s5p \,3P0 decay path is 1:3.9 × 106 and the decay rate for the transition from the 5s5p \,1P1 state to the 5s4d \,3D1 state is 83(32)\,s-1. This outcome underscores the limitation on atom number in the MOT for long loading times ( 1 \,s) when employing a single-repumping scheme. These findings will contribute to the construction of field-deployable optical lattice clocks.