Feshbach resonances in rubidium 87: Precision measurement and analysis

TL;DR

This paper reports precise measurements of over 40 Feshbach resonances in rubidium 87, providing detailed analysis and improved interatomic potential parameters, highlighting the potential for tuning scattering lengths in quantum applications.

Contribution

The study provides a comprehensive measurement and analysis of Feshbach resonances in rubidium 87, with improved model parameters and insights into resonance widths for quantum control.

Findings

Over 40 Feshbach resonances observed with 30 mG accuracy

Identification and analysis of resonance positions and widths

Prediction of large elastic width at 1007 G

Abstract

More than 40 Feshbach resonances in rubidium 87 are observed in the magnetic field range between 0.5 and 1260 G for various spin mixtures in the lower hyperfine ground state. The Feshbach resonances are observed by monitoring the atom loss, and their positions are determined with an accuracy of 30 mG. In a detailed analysis, the resonances are identified and an improved set of model parameters for the rubidium interatomic potential is deduced. The elastic width of the broadest resonance at 1007 G is predicted to be significantly larger than the magnetic field resolution of the apparatus. This demonstrates the potential for applications based on tuning the scattering length.