Kai Wen, Huijin Chen, Xu Yan, Zejian Ren, Chengdong He, Elnur Hajiyev, Preston Tsz Fung Wong, Gyu-Boong Jo
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Apparatus for producing single strontium atoms in an optical tweezer array
We outline an experimental setup for efficiently preparing a tweezer array of
$^{88}$Sr atoms. Our setup uses permanent magnets to maintain a steady-state
two-dimensional magneto-optical trap (MOT) which results in a loading rate of
up to $10^{8}$ s$^{-1}$ at 5 mK for the three-dimensional blue MOT. This
enables us to trap $2\times10^{6}$ $^{88}$Sr atoms at 2 $\mu$K in a narrow-line
red MOT with the $^{1}$S$_{0}$ $\rightarrow$ $^{3}$P$_{1}$ intercombination
transition at 689 nm. With the Sisyphus cooling and pairwise loss processes,
single atoms are trapped and imaged in 813 nm optical tweezers, exhibiting a
lifetime of 2.5 minutes. We further investigate the survival fraction of a
single atom in the tweezers and characterize the optical tweezer array using a
release and recapture technique. Our platform paves the way for potential
applications in atomic clocks, precision measurements, and quantum simulations.
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