2026 CAP Congress / Congrès de l'ACP 2026

Ultracold radioactive atoms in an optical lattice

23 Jun 2026, 15:00

15m

U. Ottawa - Learning Crossroads (CRX) Building

Oral Competition (Graduate Student) / Compétition orale (Étudiant(e) du 2e ou 3e cycle) Atomic, Molecular and Optical Physics, Canada / Physique atomique, moléculaire et photonique, Canada (DAMOPC-DPAMPC) (DAMOPC) T2-3 | (DPAMPC)

Speaker

Andrew Lagno (University of Waterloo)

Description

Radioactive atoms and molecules are a new frontier in atomic physics currently being explored in cutting edge precision measurements. $^{221}$Fr’s nuclear octupole deformation gives ultracold FrAg molecules enhanced ability to detect hadronic CP violation. We are currently working towards studying atomic francium’s scattering properties through photoassociation spectroscopy. Toward this end, we have expanded TRIUMF’s francium trapping lab’s [1] capabilities by implementing absorption imaging for a more accurate measurement of trapped Fr number and an optical dipole trap for denser and colder samples.

We report evidence of a 1D optical lattice in our apparatus in both Fr and Rb. Using these new capabilities, we have also measured $^{211}$Fr’s D2 atomic transition to an accuracy of 3 MHz. These results demonstrate a step forward in control over ultracold radioactive atoms. TRIUMF’s forthcoming Radioactive Molecules Laboratory will provide the infrastructure necessary for further development of techniques for precision studies of exotic radioactive atoms and molecules.

1. M. Tandecki et al., J. of Instr., 8, 12006 (2013)