Theoretical Investigation of the Radiation Pattern From LEDs Incorporating Shallow Photonic Crystals

Wiesmann C.; Bergenek K.; Houdre R.; Stanley R. P.; Linder N.; Schwarz U. T.

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Theoretical Investigation of the Radiation Pattern From LEDs Incorporating Shallow Photonic Crystals

机译：掺入浅光子晶体的LED的辐射方向图的理论研究

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A theoretical approach based on coupled-mode theory is presented in order to determine the radiation pattern of LEDs incorporating a shallow photonic crystal. From this, a fundamental limit for the directionality of the diffraction of a single guided mode is given. Additionally, the Fabry–Perot resonances are shown to have significant impact on the directionality of diffracted light. For a realistic green-emitting InGaN LED in thin-film configuration the optimum reciprocal lattice vector is derived in terms of absolute diffracted intensity and directionality within a limited acceptance angle. The latter can be as high as 1.8 times the directionality of a Lambertian emitter. Furthermore, the spontaneous emission distribution between guided modes heavily influences the diffracted intensity.

机译：为了确定结合了浅光子晶体的LED的辐射方向图，提出了一种基于耦合模式理论的理论方法。由此，给出了单个引导模式的衍射方向性的基本极限。此外，法布里-珀罗共振对衍射光的方向性有重要影响。对于薄膜配置中的逼真的绿色发光InGaN LED，根据在有限接受角内的绝对衍射强度和方向性，可以得出最佳的倒易晶格矢量。后者可以高达朗伯发射器方向性的1.8倍。此外，引导模式之间的自发发射分布严重影响了衍射强度。

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来源
《Quantum Electronics, IEEE Journal of》 |2009年第10期|p.1273-1283|共11页
作者
Wiesmann C.; Bergenek K.; Houdre R.; Stanley R. P.; Linder N.; Schwarz U. T.;
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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
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关键词
Coupled-mode theory; LEDs; diffraction; photonic crystals (PhCs);

机译：耦合模式理论;LED;衍射;光子晶体（PhCs）;
入库时间 2022-08-17 13:26:57

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Theoretical Investigation of the Radiation Pattern From LEDs Incorporating Shallow Photonic Crystals

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