Crubellier A, Gonzalez-Ferez R, Koch CP, Luc-Koenig E (2019)
Publication Type: Journal article
Publication year: 2019
Book Volume: 99
Article Number: 032710
Journal Issue: 3
DOI: 10.1103/PhysRevA.99.032710
Interactions in a spin-polarized ultracold Fermi gas are governed by p-wave collisions and can be characterized by the p-wave scattering volume. Control of these collisions by Feshbach resonances is hampered by huge inelastic losses. Here, we suggest nonresonant light control of p-wave collisions, exploiting the anisotropic coupling of nonresonant light to the polarizability of the atoms. The p-wave scattering volume can be controlled by strong nonresonant light, in close analogy to the s-wave scattering length. For collision partners that are tightly trapped, the nonresonant light induces an energy shift directly related to the scattering volume (as defined by A. Crubellier, R. González-Férez, C. P. Koch, and E. Luc-Koenig, preceding paper, Phys. Rev. A 99, 032709 (2019)10.1103/PhysRevA.99.032709. This effect could be used to climb the ladder of the trap. We also show that controlling the scattering volume implies control, at least roughly, over the orientation at short interatomic distances of the interparticle axis relative to the polarization direction of the light. Our proposal is based on an asymptotic model that explicitly accounts for the anisotropic dipole-dipole interaction which governs the ultracold collision dynamics at long range.
APA:
Crubellier, A., Gonzalez-Ferez, R., Koch, C.P., & Luc-Koenig, E. (2019). Controlling ultracold p -wave collisions with nonresonant light: Predictions of an asymptotic model. Physical Review A, 99(3). https://doi.org/10.1103/PhysRevA.99.032710
MLA:
Crubellier, Anne, et al. "Controlling ultracold p -wave collisions with nonresonant light: Predictions of an asymptotic model." Physical Review A 99.3 (2019).
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