1 June 2005Spectroscopic studies of the 1u ↔ X0g+ transition in Cd2 and Zn2: test of the potential barrier in the excited states 1u(51P1)Cd and 1u(41P1)Zn
M. K. Kubkowska, T. M. Szczesniak, T. Kutner, T. Grycuk
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The blue satellite ofthe Cd resonance line at 228. 8 nm has been studied in both absorption and emission. Comparison of experimental data with quantum simulations of the spectrum basing on available theoretical potential energy curves yielded a correction for the theoretical height of the potential energy barrier in the state 1u(51P1) Cd. Similar correction seems to be necessary for the analogical state of Zn.
M. K. Kubkowska,T. M. Szczesniak,T. Kutner, andT. Grycuk
"Spectroscopic studies of the 1u ↔ X0g+ transition in Cd2 and Zn2: test of the potential barrier in the excited states 1u(51P1)Cd and 1u(41P1)Zn", Proc. SPIE 5849, Fifth Workshop on Atomic and Molecular Physics, (1 June 2005); https://doi.org/10.1117/12.629519
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M. K. Kubkowska, T. M. Szczesniak, T. Kutner, T. Grycuk, "Spectroscopic studies of the 1u ↔ X0g+ transition in Cd2 and Zn2: test of the potential barrier in the excited states 1u(51P1)Cd and 1u(41P1)Zn," Proc. SPIE 5849, Fifth Workshop on Atomic and Molecular Physics, (1 June 2005); https://doi.org/10.1117/12.629519