Distance dependent interaction as the limiting factor for Si nanocluster to Er energy transfer in silica

B. Garrido; C. Garcia; P. Pellegrino; D. Navarro-Urrios; N. Daldosso; L. Pavesi; F. Gourbilleau; R. Rizk

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Distance dependent interaction as the limiting factor for Si nanocluster to Er energy transfer in silica

机译：距离相关的相互作用是Si纳米簇向二氧化硅中Er能量转移的限制因素

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Si excess, Er content, and processing parameters have been optimized in a series of cosputtered oxide layers for maximizing Er emission and lifetime. The amount of excited Er as a function of the incident photon flux has been quantified for resonant (488 nm) and nonresonant (476 nm) excitations. Results show that a maximum of 3.5% of Er ions is excitable through the Si nanoclusters (Si-nc). This low value cannot be explained only by cooperative upconversion and/or excited state absorption. A short range (0.5 nm) distance dependent interaction model is developed that accounts for this low Er population inversion: The model points to the low density of Si-nc [(3-5) X 10~(17) cm~(-3)] as the ultimate limiting step for indirect Er excitation in this system.

机译：Si过量，Er含量和工艺参数已在一系列共溅射氧化物层中进行了优化，以最大化Er的发射和寿命。对于共振（488 nm）和非共振（476 nm）激发，已量化了作为入射光子通量函数的激发Er量。结果表明，通过Si纳米团簇（Si-nc）最多可激发3.5％的Er离子。仅通过协同上变频和/或激发态吸收不能解释该低值。建立了一个短距离（0.5 nm）距离相关的相互作用模型，来解释这种低Er人口反转：该模型指出Si-nc [（3-5）X 10〜（17）cm〜（-3）的低密度。）]作为此系统中间接Er激发的最终限制步骤。

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来源
《Applied Physics Letters》 |2006年第16期|p.163103.1-163103.3|共3页
作者
B. Garrido; C. Garcia; P. Pellegrino; D. Navarro-Urrios; N. Daldosso; L. Pavesi; F. Gourbilleau; R. Rizk;
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作者单位

Departament d'Electronica, Universitat de Barcelona, Marti i Franques 1, 08028 Barcelona, Spain;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类应用物理学;计量学;
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Distance dependent interaction as the limiting factor for Si nanocluster to Er energy transfer in silica

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