English

Atomic Quadrupole Moment Measurement Using Dynamic Decoupling

Quantum Physics 2016-04-13 v1

Abstract

We present a method that uses dynamic decoupling of a multi-level quantum probe to distinguish small frequency shifts that depend on mj2m^2_{j}, where mj2m^2_{j} is the angular momentum of level j\left|j\right\rangle along the quantization axis, from large noisy shifts that are linear in mjm_{j}, such as those due to magnetic field noise. Using this method we measured the electric quadrupole moment of the 4D524D_{\frac{5}{2}} level in 88Sr+^{88}Sr^{+} to be 2.9730.033+0.026ea022.973^{+0.026}_{-0.033}\, ea_{0}^{2}. Our measurement improves the uncertainty of this value by an order of magnitude and thus helps mitigate an important systematic uncertainty in 88Sr+^{88}Sr^{+} based optical atomic clocks and verifies complicated many-body quantum calculations.

Keywords

Cite

@article{arxiv.1511.07277,
  title  = {Atomic Quadrupole Moment Measurement Using Dynamic Decoupling},
  author = {Ravid Shaniv and Nitzan Akerman and Roee Ozeri},
  journal= {arXiv preprint arXiv:1511.07277},
  year   = {2016}
}
R2 v1 2026-06-22T11:52:09.909Z