A Blue-Detuned Magneto-Optical Trap of CaF Molecules
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A key method to produce trapped and laser-cooled molecules is the magneto-optical trap (MOT), which is conventionally created using light red-detuned from an optical transition. In this work, we report a MOT for CaF molecules created using blue-detuned light. The blue-detuned MOT (BDM) achieves temperatures well below the Doppler limit, and provides the highest densities and phase-space densities reported to date in CaF MOTs. We observe short BDM lifetimes at high magnetic field gradients, preventing magnetic compression as a means to increase densities. By directly measuring the BDM restoring force, we find that the short lifetimes are explained by low effective trap depths. Notably, we find sub-mK depths at typical magnetic gradients, in contrast to $\sim 50\,\text{mK}$ depths in red molecular MOTs and $\sim0.5\,\text{K}$ depths in red atomic MOTs.
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