Measurements of 27Al+ and 25Mg+ magnetic constants for improved ion clock accuracy

Abstract

We have measured the quadratic Zeeman coefficient for the 1S0 3P0 optical clock transition in 27Al+, C2=-71.944(24)~MHz/T2, and the unperturbed hyperfine splitting of the 25Mg+ 2S1/2 ground electronic state, W / h = 1~788~762~752.85(13)~Hz, with improved uncertainties. Both constants are relevant to the evaluation of the 27Al+ quantum-logic clock systematic uncertainty. The measurement of C2 is in agreement with a previous measurement and a new calculation at the 1~σ level. The measurement of W is in good agreement with a recent measurement and differs from a previously published result by approximately 2σ. With the improved value for W, we deduce an improved value for the nuclear-to-electronic g-factor ratio gI/gJ = 9.299 ~308 ~313(60) × 10-5 and the nuclear g-factor for the 25Mg nucleus gI = 1.861 ~957 ~82(28) × 10-4. Using the values of C2 and W presented here, we derive a quadratic Zeeman shift of the 27Al+ quantum-logic clock of / = -(9241.8 3.7) × 10-19, for a bias magnetic field of B ≈ 0.12~mT.