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arxiv: 2005.03163 · v2 · pith:YKFPZJMB · submitted 2020-05-06 · physics.app-ph

Enhanced Room Temperature Infrared LEDs using Monolithically Integrated Plasmonic Materials

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classification physics.app-ph
keywords plasmonicdevicesmaterialsmonolithicallyoptoelectronictemperatureachievedall-epitaxial
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Remarkable systems have been reported recently using the polylithic integration of semiconductor optoelectronic devices and plasmonic materials exhibiting epsilon-near-zero (ENZ) and negative permittivity. In traditional noble metals, the ENZ and plasmonic response is achieved near their plasma frequencies, limiting plasmonic optoelectronic device design flexibility. Here, we leverage an all-epitaxial approach to monolithically and seamlessly integrate designer plasmonic materials into a quantum dot light emitting diode (LED), leading to a ~5.6 x enhancement over an otherwise identical non-plasmonic control sample. Devices exhibited optical powers comparable, and temperature performance far superior, to commercially-available devices.

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