XUV Fluorescence Detection of Laser-Cooled Stored Relativistic Ions
Abstract
:1. Introduction
2. Experimental Setup and Parameters
3. First Results from the XUV Detector
3.1. Laser Wavelength Scans
3.2. Laser Pulse Delay
4. Conclusions
5. Outlook
Author Contributions
Funding
Institutional Review Board Statement
Informed Consent Statement
Data Availability Statement
Conflicts of Interest
References
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Ueberholz, K.; Bozyk, L.; Bussmann, M.; Eizenhöfer, N.; Hannen, V.; Horst, M.; Kiefer, D.; Kiefer, N.; Klammes, S.; Kühl, T.; et al. XUV Fluorescence Detection of Laser-Cooled Stored Relativistic Ions. Atoms 2023, 11, 39. https://doi.org/10.3390/atoms11020039
Ueberholz K, Bozyk L, Bussmann M, Eizenhöfer N, Hannen V, Horst M, Kiefer D, Kiefer N, Klammes S, Kühl T, et al. XUV Fluorescence Detection of Laser-Cooled Stored Relativistic Ions. Atoms. 2023; 11(2):39. https://doi.org/10.3390/atoms11020039
Chicago/Turabian StyleUeberholz, Ken, Lars Bozyk, Michael Bussmann, Noah Eizenhöfer, Volker Hannen, Max Horst, Daniel Kiefer, Nils Kiefer, Sebastian Klammes, Thomas Kühl, and et al. 2023. "XUV Fluorescence Detection of Laser-Cooled Stored Relativistic Ions" Atoms 11, no. 2: 39. https://doi.org/10.3390/atoms11020039
APA StyleUeberholz, K., Bozyk, L., Bussmann, M., Eizenhöfer, N., Hannen, V., Horst, M., Kiefer, D., Kiefer, N., Klammes, S., Kühl, T., Langfeld, B., Loeser, M., Ma, X., Nörtershäuser, W., Sánchez, R., Schramm, U., Siebold, M., Spiller, P., Steck, M., ... Winters, D. (2023). XUV Fluorescence Detection of Laser-Cooled Stored Relativistic Ions. Atoms, 11(2), 39. https://doi.org/10.3390/atoms11020039