Towards optical clocks based on highly charged ions for tests of fundamental physics
Prof. Samuel Brewer
Department of Physics
Colorado State University
Optical atomic clocks based on highly charged ions (HCIs) offer several promising avenues for the study of physics beyond the standard model of particle physics. Among these are searches for time variation of the fine structure constant, /α, ultralight scalar dark matter, and tests of quantum electrodynamics (QED). Due to level crossings occurring in high charge states, narrow linewidth, optically accessible transitions with a high sensitivity to /α are predicted in systems such as Pr10+. We plan to create HCIs in a compact electron beam ion trap (EBIT) and then transfer them to a cryogenic radiofrequency (rf) Paul trap where quantum-logic spectroscopy (QLS) will be performed. I will present an update on HCI production in a newly developed EBIT as well as recent results on precision laser spectroscopy using a single 9Be+ in our first-generation rf trap. In addition, I will present an update on the development of a Ca+/Ba4+ quantum-logic clock for use as an improved optical frequency standard and a recently established optical fiber link between CSU and the NIST-WWV clock ensemble located in Fort Collins, CO.
Samuel Brewer is an associate professor in the Department of Physics at Colorado State University. His research group focuses on precision measurements on trapped ions for tests of fundamental physics and optical clock development. He received his B.S. degree from Appalachian State University in 2006 and his Ph.D. from the University of Maryland in 2012. From 2012 to 2019 he worked as a postdoctoral researcher in the Ion Storage Group at the National Institute of Standards and Technology in Boulder, CO. He joined CSU in August of 2019.
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