Single-Ended Infrared Photothermal Radiometric Measurement of Quantum Efficiency and Metastable Lifetime in Solid-State Laser Materials: The Case of Ruby (Cr3+: Al2O3)
Date
1993Source
IEEE Journal of Quantum ElectronicsVolume
29Issue
6Pages
1498-1504Google Scholar check
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A new, simple, and self-consistent frequency-scanned photothermal radiometric (PTR) detection scheme was applied to the measurement of the metastable state de-excitation parameters of a ruby laser rod. From the extrema of the photothermal phase and the amplitude slope versus the excitation laser beam modulation frequency curves, we have calculated the radiative quantum efficiency and lifetime in this material, without recourse to the conventional second measurement to eliminate effects of photothermal saturation. This technique simplifies significantly the experimental methodology, guarantees uniqueness of the measured quantities, and increases the measurement range of lifetimes as compared to other photothermal-based methods. Therefore, it may prove valuable as a fast industrial quality control, as well as for fundamental studies of laser materials. © 1993 IEEE