We report on a laser photo-ionization study of silver in relation to the Selective Production of Exotic Species (SPES) project at INFN-LNL in the offline laser laboratory. In this study, two dye lasers and an ablation laser operating at 10 Hz are used alongside a time-of-flight mass spectrometer (TOF-MS). Isotopic separation of the natural, stable isotopes 107Ag and 109Ag was clearly observed in the TOF signal. Resonant photo-ionization of silver was achieved with the use of the scheme 4d105s 2S1/2→ 4d105p 2Po3/2→ 4d106d 2D3/2 with transition wavelengths of 328.163 nm and 421.402 nm, respectively. Doppler-suppressed spectroscopy of these transition lines was performed in an ablation plume. Doppler broadening with collinear injection of excitation lasers and the effect of the linewidths of the excitation lasers were investigated. The fine-structure splitting of the level 4d106d 2D (J = 5/2 and J = 3/2) was confirmed to be 186 ± 2 pm, corresponding to 314 ± 3 GHz.

Khwairakpam, O.S., Mariotti, E., Scarpa, D., Nicolosi, P., Khanbekyan, A., Ferracane, S., et al. (2023). Resonant Laser Ionization and Fine-Structure Study of Silver in an Ablation Plume. APPLIED SCIENCES, 13(1) [10.3390/app13010309].

Resonant Laser Ionization and Fine-Structure Study of Silver in an Ablation Plume

Khwairakpam, Omorjit Singh;Mariotti, Emilio
;
Khanbekyan, Alen;Arzenton, Alberto;
2023-01-01

Abstract

We report on a laser photo-ionization study of silver in relation to the Selective Production of Exotic Species (SPES) project at INFN-LNL in the offline laser laboratory. In this study, two dye lasers and an ablation laser operating at 10 Hz are used alongside a time-of-flight mass spectrometer (TOF-MS). Isotopic separation of the natural, stable isotopes 107Ag and 109Ag was clearly observed in the TOF signal. Resonant photo-ionization of silver was achieved with the use of the scheme 4d105s 2S1/2→ 4d105p 2Po3/2→ 4d106d 2D3/2 with transition wavelengths of 328.163 nm and 421.402 nm, respectively. Doppler-suppressed spectroscopy of these transition lines was performed in an ablation plume. Doppler broadening with collinear injection of excitation lasers and the effect of the linewidths of the excitation lasers were investigated. The fine-structure splitting of the level 4d106d 2D (J = 5/2 and J = 3/2) was confirmed to be 186 ± 2 pm, corresponding to 314 ± 3 GHz.
2023
Khwairakpam, O.S., Mariotti, E., Scarpa, D., Nicolosi, P., Khanbekyan, A., Ferracane, S., et al. (2023). Resonant Laser Ionization and Fine-Structure Study of Silver in an Ablation Plume. APPLIED SCIENCES, 13(1) [10.3390/app13010309].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11365/1223117