Dipolar atomic spin ensembles in a double-well potential
We experimentally study the spin dynamics of mesoscopic ensembles of ultracold magnetic spin-3 atoms located in two separated wells of an optical dipole trap.
arXiv:1407.8130 (2014) / Phys. Rev. A 90, 043607 (2014)
We use a radio-frequency sweep to selectively flip the spin of the atoms in one of the wells, which produces two separated spin domains of opposite polarization.
We observe that these engineered spin domains are metastable with respect to the long-range magnetic dipolar interactions between the two ensembles. The absence of intercloud dipolar spin-exchange processes reveals a classical behavior, in contrast to previous results with atoms loaded in an optical lattice.
When we merge the two subsystems, we observe spin-exchange dynamics due to contact interactions which enable the determination of the 𝑠-wave scattering length of 52Cr atoms in the 𝑆=0 molecular channel 𝑎0=13.5+11−10.5𝑎𝐵 (where 𝑎𝐵 is the Bohr radius).
