An opto-thermal study of high brightness 280 nm emission AlGaN micropixel light-emitting diode arrays
Applied Physics Express, 2020•iopscience.iop.org
We present a study of the light output power and the thermal impedance of 281 nm emission
AlGaN based micropixel LEDs. A modular interconnected micropixel array design is
presented which enables dense packing with area and power scalability. We study 5–15 μm
diameter stand-alone devices and parallel-connected micropixel arrays with 5 μm interpixel
gaps. A standalone 5 μm pixel emits 291 W cm− 2 at 10.2 kA cm− 2 DC-drive. A power as
high as 23 mW (361 W cm− 2) was measured at a pulsed-pump current of 800 mA (∼ 15 kA …
AlGaN based micropixel LEDs. A modular interconnected micropixel array design is
presented which enables dense packing with area and power scalability. We study 5–15 μm
diameter stand-alone devices and parallel-connected micropixel arrays with 5 μm interpixel
gaps. A standalone 5 μm pixel emits 291 W cm− 2 at 10.2 kA cm− 2 DC-drive. A power as
high as 23 mW (361 W cm− 2) was measured at a pulsed-pump current of 800 mA (∼ 15 kA …
Abstract
We present a study of the light output power and the thermal impedance of 281 nm emission AlGaN based micropixel LEDs. A modular interconnected micropixel array design is presented which enables dense packing with area and power scalability. We study 5–15 μm diameter stand-alone devices and parallel-connected micropixel arrays with 5 μm interpixel gaps. A standalone 5 μm pixel emits 291 W cm− 2 at 10.2 kA cm− 2 DC-drive. A power as high as 23 mW (361 W cm− 2) was measured at a pulsed-pump current of 800 mA (∼ 15 kA cm− 2) for an interconnected array. These are the smallest and brightest DUV LEDs to date.
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