Abstract
High-resolution molecular spectroscopy is a sensitive probe for violations of fundamental symmetries. Symmetry violation searches often require, or are enhanced by, the application of an electric field to the system under investigation. This typically precludes the study of molecular ions due to their inherent acceleration under these conditions. Circumventing this problem would be of great benefit to the high-resolution molecular spectroscopy community since ions allow for simple trapping and long interrogation times, two desirable qualities for precision measurements. Our proposed solution is to apply an electric field that rotates at radio frequencies. We discuss considerations for experimental design as well as challenges in performing precision spectroscopic measurements in rapidly time-varying electric fields. Ongoing molecular spectroscopy work that could benefit from our approach is summarized. In particular, we detail how spectroscopy on a trapped diatomic molecular ion with a ground or metastable 3Δ1 level could prove to be a sensitive probe for a permanent electron electric dipole moment (eEDM).
Original language | English |
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Pages (from-to) | 1-25 |
Number of pages | 25 |
Journal | Journal of Molecular Spectroscopy |
Volume | 270 |
Issue number | 1 |
DOIs | |
State | Published - Nov 2011 |
Externally published | Yes |
Funding
We gratefully acknowledge many useful discussions. On the topic of molecular and atomic spectroscopy, we benefited from discussions with Peter Bernath, Carl Wieman, Tom Gallagher, Ulrich Hechtfische, and Jim Lawler. On molecular structure, Andrei Derevianko, Svetlana Kotochigova, Richard Saykally, Laura Gagliardi, and especially the St. Petersburg group, Anatoly Titov, Mikhail Kozlov, and Alexander Petrov. On molecular dynamics, we had useful discussions with Carl Lineberger, David Nesbitt, and especially Bob Field. On EDM measurements, Pat Sandars, Dave DeMille, and Neil Shafer-Ray. We thank Gianfraco DiLonardo for the loan of a hollow cathode lamp and Tobin Munsat for the loan of a high-current power supply. We acknowledge useful contributions in our lab from Herbert Looser, Tyler Yahn, Tyler Coffey, Matt Grau, and Will Ames. We thank Jun Ye and members of his group for sharing their innovative ideas in comb-based spectroscopy, and Konrad Lehnert for enlightening us about sensitive microwave detection. This work was supported by NIST, NSF, and funds from a Marsico Chair of Excellence.
Funders | Funder number |
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National Science Foundation | |
National Institute of Standards and Technology |
Keywords
- Fundamental symmetries
- High-resolution spectroscopy
- Molecular ions
- Radio-frequency
- Stark and Zeeman interactions