Optimisation of GaN LEDs and the reduction of efficiency droop using active machine learning

Bertrand Rouet-Leduc; Kipton Barros; Turab Lookman; Colin J. Humphreys

doi:10.1038/srep24862

Optimisation of GaN LEDs and the reduction of efficiency droop using active machine learning

Bertrand Rouet-Leduc
, Kipton Barros
, Turab Lookman
, Colin J. Humphreys

University of Cambridge
Los Alamos National Laboratory Theoretical Division

Research output: Contribution to journal › Article › peer-review

49 Scopus citations

Abstract

A fundamental challenge in the design of LEDs is to maximise electro-luminescence efficiency at high current densities. We simulate GaN-based LED structures that delay the onset of efficiency droop by spreading carrier concentrations evenly across the active region. Statistical analysis and machine learning effectively guide the selection of the next LED structure to be examined based upon its expected efficiency as well as model uncertainty. This active learning strategy rapidly constructs a model that predicts Poisson-Schrödinger simulations of devices, and that simultaneously produces structures with higher simulated efficiencies.

Original language	English
Article number	24862
Journal	Scientific Reports
Volume	6
DOIs	https://doi.org/10.1038/srep24862
State	Published - 26 Apr 2016
Externally published	Yes

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10.1038/srep24862

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abstract = "A fundamental challenge in the design of LEDs is to maximise electro-luminescence efficiency at high current densities. We simulate GaN-based LED structures that delay the onset of efficiency droop by spreading carrier concentrations evenly across the active region. Statistical analysis and machine learning effectively guide the selection of the next LED structure to be examined based upon its expected efficiency as well as model uncertainty. This active learning strategy rapidly constructs a model that predicts Poisson-Schr{\"o}dinger simulations of devices, and that simultaneously produces structures with higher simulated efficiencies.",

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AB - A fundamental challenge in the design of LEDs is to maximise electro-luminescence efficiency at high current densities. We simulate GaN-based LED structures that delay the onset of efficiency droop by spreading carrier concentrations evenly across the active region. Statistical analysis and machine learning effectively guide the selection of the next LED structure to be examined based upon its expected efficiency as well as model uncertainty. This active learning strategy rapidly constructs a model that predicts Poisson-Schrödinger simulations of devices, and that simultaneously produces structures with higher simulated efficiencies.

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Optimisation of GaN LEDs and the reduction of efficiency droop using active machine learning

Abstract

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