Electronic spectroscopy, stimulated emission and persistent spectral hole-burning of cryogenic nitrogen matrices doped with tetrabenzoporphin
DOI (Low Temperature Physics):
https://doi.org/10.1063/1.4746794Ключові слова:
fluorescence, stimulated emission, cryogenic matrices, tetrabenzoporphin, spectral hole-burning.Анотація
This paper deal with our on-going work on the electronic spectroscopy of tetrapyrrole molecules embedded in cryogenic hosts. Under nanosecond laser excitation of the free-base tetrabenzoporphin molecules in a nitrogen matrix at 8 K, increasing the laser pulse energy results in essential enhancement of the intensity of one or several vibronic emission lines to take place in the fine-structure fluorescence spectrum. The observed intense monochromatic radiation possesses characteristics of stimulated radiation being realized as a result of a transition from the purely electronic S1 level to a vibrational sublevel of the S0 state, corresponding to excitation of stretching C–C vibrations of the tetrapyrrole methane bridges. We also report on persistent spectral hole-burning effects. The analysis of the holes and antiholes formation gives some insight on the photochemical properties of tetrabenzoporphin in a nitrogen matrix.Завантаження
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Опубліковано
2012-06-18
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S.M. Arabei, J.-P. Galaup, J.G. McCaffrey, N. Shafizadeh, and C. Crépin, Electronic spectroscopy, stimulated emission and persistent spectral hole-burning of cryogenic nitrogen matrices doped with tetrabenzoporphin, Low Temp. Phys. 38, (2012) [Fiz. Nizk. Temp. 38, 917-923, (2012)] DOI: https://doi.org/10.1063/1.4746794.
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