Optical protection of alkali-metal atoms from spin relaxation

Avraham Berrebi, Mark Dikopoltsev, Ori Katz, Or Katz

Published 2022-09-26Version 1

We describe a new mechanism to continuously protect alkali-metal atoms from spin relaxation using a single off-resonant optical beam. We experimentally demonstrate that state-selective light-shifts can synchronize the Larmor frequencies of the two hyperfine manifolds, and by that form a unique decoherence-free subspace. We report an order of magnitude suppression of the spin decoherence for cesium atoms, simultaneously protecting from random spin-exchange collisions and partially also from spin-relaxation by the interaction with weakly-depolarizing walls. We further report an order of magnitude improvement of the quality factor of the magnetic states. Our results demonstrate the ability to use the multi-level structure of atoms or molecules with accessible optical tools to engineer useful decoherence-free subspaces.