Population hole-burning using a triplet reservoir: S1 ← S0 transition of zinc porphin in n-octane

Publisher Website

15 July 1979

journal article
Published by Elsevier in Chemical Physics Letters

Vol. 64 (3), 545-549
https://doi.org/10.1016/0009-2614(79)80241-9

Abstract

No abstract available

This publication has 19 references indexed in Scilit:

Photochemical and Population Hole Burning in the Zero-Phonon Line of a Color Center— ${F_{3}}^{+}$ in NaF
Physical Review Letters, 1979
Photochemical hole-burning in vibronic bands of the S1 ← S0 transition of free-base porphin in an n-octane crystal
Chemical Physics Letters, 1979
Frequency shift and dephasing of the S1 ← S0 transition of free-base porphin in an n-octane crystal as a function of temperature
Chemical Physics Letters, 1978
Optical measurement of the hyperfine splitting of the ${}^{1}D_{2}$ metastable state of $\Pr^{3 +}$ in La $F_{3}$ by enhanced and saturated absorption spectroscopy
Physical Review B, 1977
Homogeneous linewidth of the S1←S transition of free-base porphyrin in an n-octane crystal as studied by photochemical hole-burning
The Journal of Chemical Physics, 1977
Laser-induced photochemical isomerization of free base porphyrin in ann-octane crystal at 4·2 K
Molecular Physics, 1976
Homogeneous Broadening of Optical Transitions in Organic Mixed Crystals
Physical Review Letters, 1976
Observation of hole burning and cross relaxation effects in ruby
Physical Review B, 1975
Stable ‘gap’ in absorption spectra of solid solutions of organic molecules by laser irradiation
Optics Communications, 1974
Investigation of the lowest triplet state of free base porphin by microwave induced changes in its fluorescence
Chemical Physics Letters, 1973

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