Calculation of parity non-conserving optical rotation in iodine at 1315 nm
Abstract
We examine the feasibility of a parity non-conserving (PNC) optical rotation experiment for the 2P3/2→ 2P1/2 transition of atomic iodine at 1315 nm. The calculated E1 PNC to M1 amplitude ratio is R=0.80(16)× 10-8. We show that very large PNC rotations (greater than 10 μrad) are obtained for iodine-atom column densities of 1022 cm-2, which can be produced by increasing the effective interaction pathlength by a factor of 104 with a high-finesse optical cavity. The simulated signals indicate that measurement of the nuclear anapole moment is feasible, and that a 1% PNC precision measurement should resolve the inconsistency between previous measurements in Cs and Tl.
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