Integrated optical dipole trap for cold neutral atoms with an optical waveguide coupler

Integrated optical dipole trap for cold neutral atoms with an optical waveguide coupler

An integrated optical dipole trap uses two-color (red and blue-detuned) traveling evanescent wave fields for trapping cold neutral atoms. To achieve longitudinal confinement, we propose using an integrated optical waveguide coupler, which provides a potential gradient along the beam propagation direction sufficient to confine atoms. This integrated optical dipole trap can support an atomic ensemble with a large optical depth due to its small mode area. Its quasi-TE0 waveguide mode has an advantage over the HE11 mode of a nanofiber, with little inhomogeneous Zeeman broadening at the trapping region. The longitudinal confinement eliminates the need for a one dimensional optical lattice, reducing collisional blockaded atomic loading, potentially producing larger ensembles. The waveguide trap allows for scalability and integrability with nano-fabrication technology. We analyze the potential performance of such integrated atom traps.

1. Lee, J., Park, D. H., Mittal, S., Dagenais, M. & Rolston, S. L. Integrated optical dipole trap for cold neutral atoms with an optical waveguide coupler. New Journal of Physics 15, 043010 (2013).

doi:10.1088/1367-2630/15/4/043010