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

Author

Wiesmann, Christopher ; Bergenek, Krister ; Houdré, Romuald ; Stanley, Ross P. ; Linder, Norbert ; Schwarz, Ulrich T.

Author_Institution

Osram Opto Semicond., Regensburg, Germany

Volume

45

Issue

10

fYear

2009

Firstpage

1273

Lastpage

1283

Abstract

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.

Keywords

coupled mode analysis; light diffraction; light emitting diodes; optical films; photonic crystals; spontaneous emission; thin film devices; Fabry-Perot resonance; Lambertian emitter; coupled-mode theory; diffraction intensity; green-emitting LED; light diffraction; radiation pattern; shallow photonic crystal; single guided mode; spontaneous emission distribution; thin-film configuration; Crystalline materials; Diffraction; Lattices; Light emitting diodes; Optical coupling; Photonic crystals; Resonance; Semiconductor materials; Spontaneous emission; Transistors; Coupled-mode theory; LEDs; diffraction; photonic crystals (PhCs);

fLanguage

English

Journal_Title

Quantum Electronics, IEEE Journal of

Publisher

ieee

ISSN

0018-9197

Type

jour

DOI

10.1109/JQE.2009.2024551

Filename

5257410