Progress towards a Radium-225 ion optical clock

Roy A Ready; spencer kofford; Haoran Li; Luka Sever-Walter; Sijia Wang; Huaxu Dan; Akshay Sawhney; Robert Kwapisz; Charles Berger; Andrew Jayich

Progress towards a Radium-225 ion optical clock

ORAL

Abstract

Radium-225 has nuclear spin 1/2 and other favorable properties for optical clocks, quantum information science, and tests of fundamental symmetries. With trapped and laser cooled radium ions we have measured the hyperfine splitting of the 7s ²S_1/2 ground state, 7p ²P_1/2 excited state, and the 6d ²D_3/2 excited state. These levels are important for Doppler cooling the ion and for an optical clock that uses only three electronic states. We have driven the ²S_1/2(F = 0, m_F = 0) ↔ ²D_5/2(F = 2, m_F = 0) first-order magnetic field insensitive clock transition as well as the ²D_5/2 (F=2) ↔ ²P_3/2 (F=1) cleanout transition, and are performing spectroscopy of the S_1/2↔ D_5/2 transition. We are working towards running a ²²⁵Ra⁺clock and characterizing systematics.

June 17, 2025, 2:30 PM – June 17, 2025, 2:42 PM

Presenters

Roy A Ready

University of California, Santa Barbara

Authors

Roy A Ready

University of California, Santa Barbara
spencer kofford

University of California, Santa Barbara
Haoran Li

University of California, Santa Barbara
Luka Sever-Walter

University of California, Santa Barbara
Sijia Wang

University of California, Santa Barbara
Huaxu Dan

University of California, Santa Barbara
Akshay Sawhney

University of California, Santa Barbara, University of California Santa Barbara
Robert Kwapisz

University of California Santa Barbara
Charles Berger

University of California, Santa Barbara
Andrew Jayich

University of California, Santa Barbara