Progress towards a search for CP-violating nuclear Schiff moments using radioactive molecules in solids at FRIB

ORAL

Abstract

Nuclear Schiff moments (NSMs) present a hadronic signature of new physics through their connection to CP-symmetry violation. Such symmetry violations are needed to explain the observed baryon asymmetry of the Universe. We are investigating the application of molecular matrix methods[1] to the search for NSMs of pear-shaped nuclei in heavy polar radioactive molecules[2]. Pear-shaped nuclei (i.e. those with octupole deformations), such as radium-225, are expected to have enhanced NSMs[3]. These methods involve trapping polar molecules in a noble gas matrix, which is predicted to lock their orientation relative to the matrix lattice vectors. The FRIB-EDM3 instrument will implement these methods, which consists of two main parts: the frontend, which will create and mass-separate molecular ions, such as RaF[4], and the backend, which will neutralize the ions, co-deposit them in a noble gas matrix, and perform molecular hyperfine spectroscopy, which will ultimately enable an NSM search. This contribution focuses on the spectroscopy calculations leading to the draft NSM measurement scheme.

We believe that this approach may be an efficient method for creating and trapping radioactive molecules starting from a precursor solution made available by the Isotope Harvesting Program at FRIB. Our initial goal is to quantify and optimize the efficiency of this approach. Eventually we aim to carry out a sensitive search for the NSM of radium-225 using, for example, RaF molecules in solid argon. Information will be provided on the calculations relevant to developing an NSM measurement scheme, specifically calculations of the hyperfine, Zeeman, and Stark structure of molecules embedded in noble gas solids which drive the design of the backend.

[1] A.C. Vutha et al, Phys Rev A98, 032513 (2018)

[2] G. Arrowsmith-Kron et al, 10.1088/1361-6633/ad1e39 (2024).

[3] N. Auerbach et al, Phys. Rev. Lett. 76, 4316 (1996).

[4] J. Ballof et al, NiMB 541, 224 (2023).

*This work is supported by the U.S. DOE, Office of Science, Office of Nuclear Physics, under contract DE-SC0019015 and by the Office of High Energy Physics, under contract DE-SC0022299, and used resources of the Facility for Rare Isotope Beams (FRIB), which is a DOE Office of Science User Facility, under Award Number DE-SC0023633.

Publication: J. Ballof, N. Nusgart, P. Lalain, M. Au, R. Heinke, D. Leimbach, S. Stegemann, M. Sch ̈utt, S. Rothe, and J. T. Singh,
Progress towards the frib-edm3-frontend: A tool to provide radioactive molecules from isotope harvesting for fundamental
symmetry studies, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and
Atoms 541, 224 (2023).

Presenters

  • Nicholas Nusgart

    • Michigan State University

Authors

  • Nicholas Nusgart

    • Michigan State University

  • Aiden R Boyer

    • Facility for Rare Isotope Beams, Michigan State University
    • Michigan State University, Facility for Rare Isotope Beams

  • Meyhar Dudeja

    • Facility for Rare Isotope Beams, Michigan State University

  • Jaideep Taggart Singh

    • Facility for Rare Isotope Beams, Michigan State University