Sub-Doppler laser cooling of 39K via the 4S5P transition

Abstract

We demonstrate sub-Doppler laser cooling of 39 K using degenerate Raman sideband cooling via the 4S1/2 → 5P 1/2 transition at 404.8 nm. By using an optical lattice in combination with a magnetic field and optical pumping beams, we obtain a spin-polarized sample of up to 5.6 × 107 atoms cooled down to a sub-Doppler temperature of 4 μ K, reaching a peak density of 3.9 × 109 atoms/cm 3 , a phase-space density greater than 10-5 , and an average vibrational level of =0.6 in the lattice. This work opens up the possibility of implementing a single-site imaging scheme in a far-detuned optical lattice utilizing shorter wavelength transitions in alkali atoms, thus allowing improved spatial resolution.