A mid-infrared magneto-optical trap of metastable strontium for an optical lattice clock

Abstract

We report on the realization of a magneto-optical trap (MOT) for metastable strontium operating on the 2.92 μm transition between the energy levels 5s5p~3P2 and 5s4d~3D3. The strontium atoms are initially captured in a MOT operating on the 461 nm transition between the energy levels 5s2~1S0 and 5s5p~1P1, prior to being transferred into the metastable MOT and cooled to a final temperature of 6 μK. Challenges arising from aligning the mid-infrared and 461 nm light are mitigated by employing the same pyramid reflector to realize both MOTs. Finally, the 2.92 μm transition is used to realize a full cooling sequence for an optical lattice clock, in which cold samples of 87Sr are loaded into a magic-wavelength optical lattice and initialized in a spin-polarized state to allow high-precision spectroscopy of the 5s2~1S0 to 5s5p~3P0 clock transition.