Microparticle-based persistent spectral hole-burning memory at room temperature

Lingbing Chen, Yan Wang, Yongle Pan, You-yuan Zhao, Fuming Li, Jianhua Hu, Xuliang Lu, S. Fu
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Abstract

Persistent spectral hole burning with multiplicity was realized at room temperature for Nile blue molecules-doped polymeric dielectric spherical microparticles based on morphology-dependent resonances. Hole parameters depending on burning conditions were studied. Dynamical characteristic behavior of hole formation was measured and analyzed with a model based on rate equations. The effective hole formation rate was obtained by simulation. Photophysical and photochemical mechanisms of the room temperature hole burning for this system was discussed.
室温下基于微粒子的持久光谱烧孔存储器
基于形态依赖共振,实现了尼罗蓝分子掺杂聚合物介电球微粒子在室温下具有多重光谱的持续空穴燃烧。研究了不同燃烧条件下孔参数的变化规律。利用基于速率方程的模型,测量和分析了成孔的动态特性。通过模拟得到了有效成孔速率。讨论了该体系室温孔烧的光物理和光化学机理。
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