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Light_extraction_in_LEDs abstract "Light extraction in LEDs involves the set of particular problems that is connected with getting light from the light emitting p-n junction in an LED to the surroundings, such that the light might be useful, for instance for lighting.The refractive index of most LED semiconductor materials is quite high, so in almost all cases the light from the LED is coupled into a much lower-index medium. The large index difference makes the reflection quite substantial (per the Fresnel coefficients). The produced light gets partially reflected back into the semiconductor, where it may be absorbed and turned into additional heat; this is usually one of the dominant causes of LED inefficiency. Often more than half of the emitted light is reflected back at the LED-package and package-air interfaces.The reflection is most commonly reduced by using a dome-shaped (half-sphere) package with the diode in the center so that the outgoing light rays strike the surface perpendicularly, at which angle the reflection is minimized. Substrates that are transparent to the emitted wavelength, and backed by a reflective layer, increase the LED efficiency. The refractive index of the package material should also match the index of the semiconductor, to minimize back-reflection. An anti-reflection coating may be added as well.The package may be colored, but this is only for cosmetic reasons or to improve the contrast ratio; the color of the packaging does not substantially affect the color of the light emitted.Other strategies for reducing the impact of the interface reflections include designing the LED to reabsorb and reemit the reflected light (called photon recycling) and manipulating the microscopic structure of the surface to reduce the reflectance, by introducing random roughness, creating programmed moth eye surface patterns. Recently photonic crystals have also been used to minimize back-reflections.In December 2007, scientists at Glasgow University claimed to have found a way to make LEDs more energy efficient, imprinting billions of holes into LEDs using a process known as nanoimprint lithography.".
Light_extraction_in_LEDs wikiPageID "21547160".
Light_extraction_in_LEDs wikiPageLength "3232".
Light_extraction_in_LEDs wikiPageOutDegree "14".
Light_extraction_in_LEDs wikiPageRevisionID "696804953".
Light_extraction_in_LEDs wikiPageWikiLink Anti-reflective_coating.
Light_extraction_in_LEDs wikiPageWikiLink Category:Light-emitting_diodes.
Light_extraction_in_LEDs wikiPageWikiLink Category:Lighting.
Light_extraction_in_LEDs wikiPageWikiLink Category:Optics.
Light_extraction_in_LEDs wikiPageWikiLink Fresnel_equations.
Light_extraction_in_LEDs wikiPageWikiLink Light-emitting_diode.
Light_extraction_in_LEDs wikiPageWikiLink Nanoimprint_lithography.
Light_extraction_in_LEDs wikiPageWikiLink Perpendicular.
Light_extraction_in_LEDs wikiPageWikiLink Photonic_crystal.
Light_extraction_in_LEDs wikiPageWikiLink P–n_junction.
Light_extraction_in_LEDs wikiPageWikiLink Reflection_(physics).
Light_extraction_in_LEDs wikiPageWikiLink Refractive_index.
Light_extraction_in_LEDs wikiPageWikiLink University_of_Glasgow.
Light_extraction_in_LEDs wikiPageWikiLinkText "light extraction in LEDs".
Light_extraction_in_LEDs wikiPageUsesTemplate Template:Electronics-stub.
Light_extraction_in_LEDs wikiPageUsesTemplate Template:Main.
Light_extraction_in_LEDs subject Category:Light-emitting_diodes.
Light_extraction_in_LEDs subject Category:Lighting.
Light_extraction_in_LEDs subject Category:Optics.
Light_extraction_in_LEDs type Diode.
Light_extraction_in_LEDs type Element.
Light_extraction_in_LEDs type Science.
Light_extraction_in_LEDs type Semiconductor.
Light_extraction_in_LEDs type Source.
Light_extraction_in_LEDs type Transducer.
Light_extraction_in_LEDs comment "Light extraction in LEDs involves the set of particular problems that is connected with getting light from the light emitting p-n junction in an LED to the surroundings, such that the light might be useful, for instance for lighting.The refractive index of most LED semiconductor materials is quite high, so in almost all cases the light from the LED is coupled into a much lower-index medium. The large index difference makes the reflection quite substantial (per the Fresnel coefficients).".
Light_extraction_in_LEDs label "Light extraction in LEDs".
Light_extraction_in_LEDs sameAs Q6546173.
Light_extraction_in_LEDs sameAs m.05h3xzn.
Light_extraction_in_LEDs sameAs Q6546173.
Light_extraction_in_LEDs wasDerivedFrom Light_extraction_in_LEDs?oldid=696804953.
Light_extraction_in_LEDs isPrimaryTopicOf Light_extraction_in_LEDs.