Strontium molecular clock for physics searches beyond the Standard Model

Wenwei Xu; Brandon Iritani; Mateusz Borkowski; Debayan Mitra; Tanya Zelevinsky

Strontium molecular clock for physics searches beyond the Standard Model

POSTER

Abstract

We present a Sr₂ molecular lattice clock and describe its unique opportunities as a precision measurement platform. This includes supplying the most precise frequency reference in the THz frequency range and providing the ability to constrain non-Newtonian gravity at ultrashort range. We are working toward a vibrational isotope shift measurement in order to place constraints on Yukawa-type mass-dependent forces at the nanometer scale. Here we discuss progress toward producing the ⁸⁶Sr₂ isotopologue at ultracold temperatures, including addressing isotope shifts for cooling and trapping atoms, and photoassociating the molecules. We also discuss implementation of a new lattice configuration to reduce lattice light scattering and reactive collisions to improve the clock precision.

Publication: B. Iritani, E. Tiberi, W. Skomorowski, R.Moszynski, M. Borkowski, T. Zelevinsky. Phys. Rev. Lett. 131, 263201 (2023)<br>K. H. Leung, B. Iritani, E. Tiberi, I. Majewska, M. Borkowski, R. Moszynski, T. Zelevinsky. Phys. Rev. X 13, 011047 (2023)<br><br>

Presenters

Wenwei Xu

Columbia University

Authors

Wenwei Xu

Columbia University
Brandon Iritani

Columbia Univ
Mateusz Borkowski

University of Amsterdam
Debayan Mitra

Columbia University
Tanya Zelevinsky

Columbia University