2023
DOI: 10.1088/1361-6455/acf3bf
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Design and simulation of a source of cold cadmium for atom interferometry

Satvika Bandarupally,
Jonathan N Tinsley,
Mauro Chiarotti
et al.

Abstract: We present a novel optimised design for a source of cold atomic cadmium, compatible with
continuous operation and potentially quantum degenerate gas production. The design is based on
spatially segmenting the first and second-stages of cooling with the the strong dipole-allowed 1S0-1P1
transition at 229 nm and the 326 nm 1S0-3P1 intercombination transition, respectively. Cooling at
229 nm operates on an effusive atomic beam and takes the form of a compact Zeeman slower (∼5 cm)&a… Show more

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Cited by 4 publications
(2 citation statements)
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“…Instead, we used the picture from panel (b), from which we subtracted the signal from the trapped atoms, to isolate the 2 M MOT fluorescence in panel (a). We could thus estimate that the ZS enhances the 2D MOT by a factor of 14.2( 16) in the symmetric configuration, 21.3 (26) in the asymmetric one, and 35.4(28) in the two cooling beam frequency configuration, as reported in table 1. The best enhancement factor we measured is at least a factor 3 better than that reported for similar compact Sr [15,17] and Na [14] sources.…”
Section: Resultsmentioning
confidence: 77%
See 1 more Smart Citation
“…Instead, we used the picture from panel (b), from which we subtracted the signal from the trapped atoms, to isolate the 2 M MOT fluorescence in panel (a). We could thus estimate that the ZS enhances the 2D MOT by a factor of 14.2( 16) in the symmetric configuration, 21.3 (26) in the asymmetric one, and 35.4(28) in the two cooling beam frequency configuration, as reported in table 1. The best enhancement factor we measured is at least a factor 3 better than that reported for similar compact Sr [15,17] and Na [14] sources.…”
Section: Resultsmentioning
confidence: 77%
“…The atomic source design, which combines high flux, compactness, and low consumption, could be adapted straightforwardly to other atomic species where a ZS is required, and with a J = 0 ground state, such as Ca [25], Cd [26], and Yb [27,28]. For atoms with J̸ =0 ground states like Li, Na, Rb, addressing atomic losses due to optical pumping into non-decelerated magnetic sub-levels remains a challenge, especially near zero magnetic field and, for the two frequency components ZS, where the magnetic field gradient changes sign.…”
Section: Discussionmentioning
confidence: 99%