We use a gray molasses operating on the D1 atomic transition to produce degenerate quantum gases of Li6 with a large number of atoms. This sub-Doppler cooling phase allows us to lower the initial temperature of 109 atoms from 500 to 40 ?K in 2 ms. We observe that D1 cooling remains effective into a high-intensity infrared dipole trap where two-state mixtures are evaporated to reach the degenerate regime. We produce molecular Bose-Einstein condensates of up to 5 × 105 molecules and weakly interacting degenerate Fermi gases of 7×105 atoms at T/TF<0.1 with a typical experimental duty cycle of 11 s.
Efficient all-optical production of large 6Li quantum gases using D1 gray-molasses cooling
A Burchianti;G Valtolina;J A Seman;G Roati
2014
Abstract
We use a gray molasses operating on the D1 atomic transition to produce degenerate quantum gases of Li6 with a large number of atoms. This sub-Doppler cooling phase allows us to lower the initial temperature of 109 atoms from 500 to 40 ?K in 2 ms. We observe that D1 cooling remains effective into a high-intensity infrared dipole trap where two-state mixtures are evaporated to reach the degenerate regime. We produce molecular Bose-Einstein condensates of up to 5 × 105 molecules and weakly interacting degenerate Fermi gases of 7×105 atoms at T/TF<0.1 with a typical experimental duty cycle of 11 s.File in questo prodotto:
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