Sawtooth wave adiabatic passage in a grating magneto-optical trap

Abstract

We demonstrate sawtooth wave adiabatic passage (SWAP) in a grating magneto-optical trap (MOT) operating on the 1S0 → 3P1 transition of neutral 88Sr. From numerical simulations of SWAP using our laser beam geometry, we find that SWAP provides greater cooling than triangle wave frequency modulation despite the complex polarization environment of a grating MOT. The simulation is confirmed by our experimental results, where we demonstrate a factor of two improvement in transfer efficiency between our 1S0 → 1P1 grating MOT and our 1S0 → 3P1 grating MOT. We trap up to 3×106 88Sr atoms in the 1S0 → 3P1 grating MOT, at an average temperature of 4.9 μK with a lifetime of approximately 0.7 s. Our results show that SWAP is effective in non-orthogonal laser beam geometries, allowing greater duty cycles or higher atom number in sensors based on narrow-line grating MOTs.