Ultrafast dynamics of the ultraviolet and visible photoluminescence in the aluminum-doped zinc oxide metamaterial

Bethany Campbell; Priscilla Kelly; Lyuba Kuznetsova

doi:10.1117/12.2320889

19 September 2018 Ultrafast dynamics of the ultraviolet and visible photoluminescence in the aluminum-doped zinc oxide metamaterial

Bethany Campbell , Priscilla Kelly, Lyuba Kuznetsova

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Proceedings Volume 10720, Nanophotonic Materials XV; 1072008 (2018) https://doi.org/10.1117/12.2320889
Event: SPIE Nanoscience + Engineering, 2018, San Diego, California, United States

Abstract

The emission properties of aluminum-doped zinc oxide are numerically investigated. A complete model for photoluminescence, based on the set of rate equations for electron-hole recombination, is used to study the influence of carrier concentration (10¹⁷-10²⁰ cm^-3 ) on the visible and ultraviolet (UV) emission. The set of coupled rate equations is solved numerically using the fourth order Runge-Kutta technique for various optical pump intensities and pulse durations. The results for low carrier concentration (~10¹⁷ cm^-3 ) show that at low pump intensity (0.01 mJ/cm² ) visible emission is dominant in the emission spectrum and, as the pump intensity increases (~1 mJ/cm² ), the UV emission becomes dominant. The study of ultrafast dynamics shows that for pump pulse durations of less than ~ 1 ns the intensity of the UV emission is an order of magnitude larger compared to the visible intensity for aluminum-doped ZnO samples with carrier concentration ~10¹⁸ cm^-3 .

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Bethany Campbell , Priscilla Kelly, and Lyuba Kuznetsova "Ultrafast dynamics of the ultraviolet and visible photoluminescence in the aluminum-doped zinc oxide metamaterial", Proc. SPIE 10720, Nanophotonic Materials XV, 1072008 (19 September 2018); https://doi.org/10.1117/12.2320889

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KEYWORDS

Ultraviolet radiation

Visible radiation

Zinc oxide

Luminescence

Ultrafast phenomena

Metamaterials

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