1. Mid-IR transitions of trivalent neodymium in low phonon laser crystals
- Author
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Sergey B. Mirov, Maxim E. Doroshenko, Marina V. Polyachenkova, Valery V. Badikov, D. V. Badikov, Vyacheslav V Osiko, L. N. Dmitruk, Tasoltan T. Basiev, K. K. Pukhov, O. K. Alimov, and Yurii V. Orlovskii
- Subjects
Range (particle radiation) ,business.industry ,Phonon ,Organic Chemistry ,Far-infrared laser ,Relaxation (NMR) ,chemistry.chemical_element ,Laser ,Neodymium ,Fluorescence ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials ,law.invention ,Inorganic Chemistry ,Optics ,chemistry ,law ,Radiative transfer ,Electrical and Electronic Engineering ,Physical and Theoretical Chemistry ,Atomic physics ,business ,Spectroscopy - Abstract
Mid-IR Nd 3+ transitions perspective for laser oscillation were analyzed in the CaGa2S4, PbGa2S4, and PbCl2 crystals and compared with low phonon fluoride crystals. Fluorescence kinetics decay of the high-lying 4 G7/2 and 4 G5/2; 2 G7/2 and low-lying 4 IJ levels and its temperature dependence in the range of 13–295 K were measured. For 5 lm mid-IR transitions of Nd 3+ the radiative relaxation rates are found to be several times higher and multiphonon relaxation (MR) rates are several times lower in lead and calcium thiogallate crystals compared to low phonon fluoride crystals. MR rate dependence on the Nd 3+ to the nearest ligand distance R0 is established experimentally and analyzed in the frame of point-charge model of nonlinear theory of multiphonon relaxation. Mid-IR Nd 3+ 4–5.5 lm fluorescence spectra of 4 Ii– 4 Ij transitions perspective for laser oscillation were measured for the first time in the studied crystals.
- Published
- 2007