| Article | |
| Report number | arXiv:1910.13416 |
| Title | Spectroscopy of short-lived radioactive molecules |
| Related title | Spectroscopy of short-lived radioactive molecules: A sensitive laboratory for new physics |
| Author(s) | Garcia Ruiz, R.F. (CERN ; MIT) ; Breier, A.A. (Kassel U.) ; Giesen, T.F. (Kassel U.) ; Koszorús, Á. (Leuven U.) ; Berger, R. (Unlisted, DE) ; Billowes, J. (Manchester U.) ; Binnersley, C.L. (Manchester U.) ; Bissell, M.L. (Manchester U.) ; Brinson, A.J. (MIT) ; Chrysalidis, K. (CERN) ; Cocolios, T.E. (Leuven U.) ; Cooper, B.S. (Manchester U.) ; Flanagan, K.T. (Manchester U.) ; De Groote, R.P. (Jyvaskyla U.) ; Franchoo, S. (Orsay, IPN) ; Gustafsson, F.P. (Leuven U.) ; Isaev, T.A. (St. Petersburg, INP) ; Neyens, G. (CERN ; Leuven U.) ; Perrett, H.A. (Manchester U.) ; Ricketts, C.M. (Manchester U.) ; Rothe, S. (CERN) ; Schweikhard, L. (Greifswald U.) ; Vernon, A.R. (Manchester U.) ; Wendt, K.D.A. (Mainz U., Inst. Phys.) ; Wienholtz, F. (CERN ; Greifswald U.) ; Wilkins, S.G. (CERN) ; Yang, X.F. (Peking U., SKLNPT) |
| Publication | 2020-05-27 |
| Imprint | 2019-10-29 |
| Number of pages | 10 |
| Note | Submitted |
| In: | Nature 581 (2020) 396-400 |
| DOI | 10.1038/s41586-020-2299-4 (publication) |
| Subject category | nucl-ex ; Nuclear Physics - Experiment ; hep-th ; Particle Physics - Theory ; hep-ph ; Particle Physics - Phenomenology ; nucl-th ; Nuclear Physics - Theory |
| Abstract | The study of molecular systems provides exceptional opportunities for the exploration of the fundamental laws of nature and for the search for physics beyond the Standard Model of particle physics. Measurements of molecules composed of naturally occurring nuclei have provided the most stringent upper bounds to the electron electric dipole moment to date, and offer a route to investigate the violation of fundamental symmetries with unprecedented sensitivity. Radioactive molecules - where one or more of their atoms possesses a radioactive nucleus - can contain heavy and deformed nuclei, offering superior sensitivity for EDM measurements as well as for other symmetry-violating effects. Radium monofluoride, RaF, is of particular interest as it is predicted to have an appropriate electronic structure for direct laser cooling. Furthermore, some Ra isotopes are known to be octupole deformed, thereby resulting in a large enhancement of their symmetry-violating nuclear moments. Until now,however, no experimental measurements of RaF have been performed, and their study is impeded by major experimental challenges, as no stable isotopes of radium exist. Here, we present a novel experimental approach to study short-lived radioactive molecules using the highly sensitive collinear resonance ionisation method. With this technique we have measured, for the first time, the energetically low-lying electronic states for each of the isotopically pure RaF molecules at the ISOLDE-CERN. Our results provide strong evidence of the existence of a suitable laser-cooling scheme for these molecules and constitute a pivotal step towards high-precision studies in these systems. Our findings open up new opportunities in the synthesis, manipulation and study of short-lived radioactive molecules, which will have a direct impact in many-body physics, astrophysics, nuclear structure, and fundamental physics research. |
| Copyright/License | publication: (License: CC-BY-4.0) preprint: (License: arXiv nonexclusive-distrib 1.0) |
Corresponding record in: Inspire
Element opprettet 2019-11-15, sist endret 2024-06-19
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