Towards Measurements of Electroweak Nuclear Properties using Single Molecular Ions in a Penning Trap
ORAL
Abstract
We present the development of a novel Penning ion trap for precision spectroscopy of symmetry-violating electroweak properties using single trapped molecular ions [1]. The high magnetic field of the Penning trap can be used to Zeeman shift two molecular states of opposite parity to near degeneracy, enhancing the sensitivity of parity-violating nuclear properties by more than 12 orders of magnitude [1,2]. Hence, our proposed experimental setup is expected to provide highly sensitive measurements of symmetry-violating nuclear properties across the nuclear chart. This contribution will describe the status of a cryogenic Penning trap for performing measurements in SiO+ and TlF+ molecules, as well as discuss future prospects of this technique.
[1] J. Karthein, S. Udrescu, S. Moroch et al. arXiv:2310.11192 (2023)
[2] Altuntas, E. et al. Phys. Rev. Lett. 120, 142501 (2018)
[1] J. Karthein, S. Udrescu, S. Moroch et al. arXiv:2310.11192 (2023)
[2] Altuntas, E. et al. Phys. Rev. Lett. 120, 142501 (2018)
–
Publication: J. Karthein, S. Udrescu, S. Moroch et al. arXiv:2310.11192 (2023) (accepted to PRL)
Presenters
-
Scott Moroch
Massachusetts Institute of Technology
Authors
-
Scott Moroch
Massachusetts Institute of Technology
-
Jonas Karthein
Massachusetts Institute of Technology
-
Ronald Fernando F Garcia Ruiz
MIT Laboratory for Nuclear Science, Massachusetts Institute of Technology
-
Silviu-Marian M Udrescu
Massachusetts Institute of Technology
-
Klaus Blaum
Max Planck Inst Kernphys
-
David P DeMille
University of Chicago, Argonne National Laboratory, University of Chicago
-
Nicholas R Hutzler
California Institute of Technology
-
Ryan Ringle
Facility for Rare Isotope Beams
-
Jens Dilling
Oak Ridge National Lab
-
Haruka Kakioka
Massachusetts Institute of Technology