Optical characterizations of densely doped Tm$^{3+}$: KYW crystals at low temperatures

Yisheng Lei, Trevor Kling, Mahdi Hosseini
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Abstract

We investigate the optical lifetime, decay characteristics, spectral linewidth and energy level properties of thulium ions doped in a KY(WO$_{\text{4}}$)$_{\text{2}}$ crystal at 4K temperature. High doping concentration of thulium ions with inhomogeneous broadening allow us to study nonradiative behaviors, instantaneous spectral diffusion, and spectral power broadening in this solid-state material. The theoretical consideration of ion-ion interactions is shown to accurately characterize the absorption, decay and other spectral behaviors of Tm$^{\text{3+}}$ ions. We observe more than ten-fold reduction in the decay time of $^3$H$_4$ state and about three-fold reduction in the spectral-hole lifetime as we approach the center of the inhomogeneous broadening, corresponding to higher optical densities.
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高密度掺杂 Tm$^{3+}$:低温下的 KYW 晶体
我们研究了 4K 温度下掺杂在 KY(WO$_\text{4}}$)$_{\text{2}}$ 晶体中的铥离子的光学寿命、衰变特性、光谱线宽和能级特性。铥离子的高掺杂浓度和不均匀展宽使我们得以研究这种固态材料中的非辐射行为、瞬时光谱扩散和光谱功率展宽。对离子-离子相互作用的理论考虑表明,它能准确地描述 Tm$^{\text{3+}}$ 离子的吸收、衰变和其他光谱行为。当我们接近不均匀展宽的中心时,我们观察到 $^3$H$_4$ 状态的衰变时间缩短了十倍以上,光谱空穴寿命缩短了约三倍,这与较高的光密度相对应。
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