Laser-cooling Cadmium Bosons and Fermions with Near Ultraviolet Triplet Excitations

Abstract

Cadmium is laser-cooled and trapped with excitations to triplet states with UVA light, first using only the 67\,kHz wide 326\,nm intercombination line and subsequently, for large loading rates, the 25\,MHz wide 361\,nm \,3P2\,→\,\,3D3 transition. Eschewing the hard UV 229\,nm 1S0\,→\,1P1 transition, only small magnetic fields gradients, less than 6\,G\,cm-1, are required enabling a 100\% transfer of atoms from the 361\,nm trap to the 326\,nm narrow-line trap. All 8 stable cadmium isotopes are straightforwardly trapped, including two nuclear-spin-12 fermions that require no additional repumping. We observe evidence of 3P2 collisions limiting the number of trapped metastable atoms, report isotope shifts for 111Cd and 113Cd of the 326\,nm 1S0\,→\,3P1, 480\,nm 3P1\,→\,3S1, and 361\,nm 3P2\,→\,3D3 transitions, and measure the 114Cd 5s5p\,3P2\,→\,5s5d\,3D3 transition frequency to be 830\,096\,573(15)\,MHz.