Binding Energies of 6Li p-wave Feshbach Molecules
arXiv:0802.3262 · doi:10.1103/PhysRevA.77.053616
Abstract
We present measurements of the binding energies of $^6$Li p-wave Feshbach molecules formed in combinations of the (F = 1/2, m_F = +1/2), (1), and (F = 1/2, m_F = -1/2), (2), states. The binding energies scale linearly with magnetic field detuning for all three resonances. The relative molecular magnetic moments are found to be $113 \pm 7 μ$K/G, $111 \pm 6 μ$K/G and $118 \pm 8 μ$K/G for the (1)-(1), (1)-(2) and (2)-(2) resonances, respectively, in good agreement with theoretical predictions. Closed channel amplitudes and the size of the p-wave molecules are obtained theoretically from full closed-coupled calculations.
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