掺TR3+双氯化物晶体的光谱特性

Feofilov Symposium on Spectropscopy of Crystals Activated by Rare-Earth and Transition Metal Ions Pub Date : 2002-07-12 DOI:10.1117/12.475337

A. Tkachuk, S. Ivanova, L. Isaenko, A. Yelisseyev, D. I. Mironov, M. Nostrand, R. Page, S. Payne

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引用次数: 10

摘要

本文研究了双氯化物Kpb2Cl5:TR3+晶体在激光二极管泵浦下作为一种新型的紫外、可见和中红外激光器发光材料的光谱和发光动力学。采用Judd-Ofelt法确定了强度参数，计算了辐射和非辐射跃迁概率。结果表明，低的多光子弛豫率和高的辐射概率值使得se晶体在360 ~ 5000nm范围内具有高强度的发光。这些特点使这些晶体有望作为紫外，可见和中红外固体激光器和放大器的有源介质的实际应用。

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Spectroscopic properties of TR3+ -doped double chloride crystals

We studied the optical spectra and luminescence kinetics of double chloride Kpb2Cl5:TR3+ crystals as a new luminescent material promising for UV, VIS and mid-IR lasers, pumped with laser diodes. Intensity parameters were determined by the Judd-Ofelt method, radiative and non- radiative transition probabilities were calculated. It is shown that low multiphoton relaxation rate in the se crystal together with high values of radiative probabilities leads to the evidence of high intensive luminescence in spectral domain from 360 to 5000 nm. These features make these crystals promising for practical applications as active media for UV, VIS and mid-IR solid state lasers and amplifiers.

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Feofilov Symposium on Spectropscopy of Crystals Activated by Rare-Earth and Transition Metal Ions

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