Open AccessLEDs on HVPE grown GaN substrates: Influence of macroscopic surface features
Author(s) -
SK. S. Rahman,
Robert A. R. Leute,
J. Wang,
Tobias Meisch,
Martin Klein,
F. Scholz,
Koji Koyama,
Mariko Ishii,
Hidetoshi Takeda
Publication year - 2014
Publication title -
aip advances
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.421
H-Index - 58
ISSN - 2158-3226
DOI - 10.1063/1.4890348
Subject(s) - materials science , light emitting diode , hillock , electroluminescence , optoelectronics , wafer , wavelength , substrate (aquarium) , polishing , full width at half maximum , gallium nitride , wide bandgap semiconductor , optics , nanotechnology , composite material , physics , layer (electronics) , geology , oceanography
We demonstrate the strong influence of GaN substrate surface morphology on optical properties and performance of light emitting devices grown on freestanding GaN. As-grown freestanding HVPE GaN substrates show excellent AFM RMS and XRD FWHM values over the whole area, but distinctive features were observed on the surface, such as macro-pits, hillocks and facets extending over several millimeters. Electroluminescence measurements reveal a strong correlation of the performance and peak emission wavelength of LEDs with each of these observed surface features. This results in multiple peaks and non-uniform optical output power for LEDs on as-grown freestanding GaN substrates. Removal of these surface features by chemical mechanical polishing results in highly uniform peak wavelength and improved output power over the whole wafer area
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