Degradation of InGaN LEDs by Proton Radiation

Abstract: Light-emitting diodes (LEDs) made of nitride are appealing because they can withstand high temperatures and be used in harsh environments. The degradation behaviour of the device performance on Indium Gallium Nitride (InGaN) LEDs (light emitting diodes) irradiated by 2-MeV protons with the fluence of 1×1013 cm-2 is studied. The electrical and optical characteristics of three commercially available LEDs, VLHW4100, OVLAW4CB7 and VAOL-3GWY4, were compared before and after radiation. The results show a considerabl… Show more

“…One of the most significant sources of light in the visible spectrum that has been used in solid-state lighting applications is the InGaN based LED [4]. SiC and GaN, two wide bandgap semiconductors, are already marketted as power devices for the automotive, wireless, and industrial markets [5]. However, their use in space and avionic applications is constrained by their vulnerability to catastrophic failure and long-term degradation due to radiation exposure [6].…”

Effect of proton radiation on gallium nitride light emitting diodes

“…One of the most significant sources of light in the visible spectrum that has been used in solid-state lighting applications is the InGaN based LED [4]. SiC and GaN, two wide bandgap semiconductors, are already marketted as power devices for the automotive, wireless, and industrial markets [5]. However, their use in space and avionic applications is constrained by their vulnerability to catastrophic failure and long-term degradation due to radiation exposure [6].…”

Effect of proton radiation on gallium nitride light emitting diodes