Junichi Takatsu scite author profile

The detrimental influence of oxygen on the performance and reliability of V/III nitride based devices is well known. However, the influence of oxygen on the nature of the incorporation of other co-dopants, such as rare earth ions, has been largely overlooked in GaN. Here, we report the first comprehensive study of the critical role that oxygen has on Eu in GaN, as well as atomic scale observation of diffusion and local concentration of both atoms in the crystal lattice. We find that oxygen plays an integral role in the location, stability, and local defect structure around the Eu ions that were doped into the GaN host. Although the availability of oxygen is essential for these properties, it renders the material incompatible with GaN-based devices. However, the utilization of the normally occurring oxygen in GaN is promoted through structural manipulation, reducing its concentration by 2 orders of magnitude, while maintaining both the material quality and the favorable optical properties of the Eu ions. These findings open the way for full integration of RE dopants for optoelectronic functionalities in the existing GaN platform.

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Color-Tunablility in GaN LEDs Based on Atomic Emission Manipulation under Current Injection

Mitchell

Wei

Takatsu

et al. 2019

ACS Photonics

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The development of efficient electrically driven color-tunable solid-state light sources will enable new capabilities in lighting and display technologies. Although alternative light sources such as organic light emitting diodes (O-LEDs) have recently gained prominence, GaN-based LEDs remain the most efficient light sources available, making GaN the ideal platform for color-tunable devices. In its trivalent form, Europium is well-known for its red emission at ∼620 nm; however, transitions at ∼590 and ∼545 nm are also possible if additional excited states are exploited. Using intentional codoping and energy-transfer engineering, we show that it is possible to attain all three primary colors due to an emission originating from two different excited states of the same Eu3+ ion mixed with near band edge emission from GaN centered at ∼430 nm. The intensity ratios of these transitions can be controlled by choosing the current injection conditions, such as injection current density and duty cycle under pulsed current injection.

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Control of the energy transfer between Tm3+ and Yb3+ ions in Tm,Yb-codoped ZnO grown by sputtering-assisted metalorganic chemical vapor deposition

Tatebayashi

Yoshii

Nakajima

et al. 2018

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We report on the epitaxial growth and the optical properties of Tm,Yb-codoped ZnO (ZnO:Tm,Yb) thin films by sputtering-assisted metalorganic chemical vapor deposition. The characteristic light emission due to the intra-4f shell transitions of Tm 3þ and Yb 3þ ions in the ZnO host is observed at 4 K by using photoluminescence (PL) characterization. The time-resolved PL measurements on the Tm 3þ and Yb 3þ emission reveals that the carrier decay time of each ion can vary by changing the concentration of both Tm 3þ and Yb 3þ ions, which depends on a mixing ratio of Tm 2 O 3 and Yb 2 O 3 in a sputtering target. The energy transfer from Tm 3þ to Yb 3þ ions occurs in the sample with the high mixing ratio, and the reversed energy transfer process occurs with the lower mixing ratio. These results indicate that the concentration, and thus the carrier dynamics of Tm 3þ and Yb 3þ ions in the ZnO:Tm,Yb host, can be controlled by altering the mixing ratio of the sputter target and the frequency power.

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Detection of In segregation in InGaN by using Eu as a probe

Takatsu

Mitchell

Koizumi

et al. 2017

Journal of Crystal Growth

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Growth and optical characteristics of Tm-doped AlGaN layer grown by organometallic vapor phase epitaxy

Takatsu

Fuji

Tatebayashi

et al. 2018

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We report on the growth and optical properties of Tm-doped AlGaN layers by organometallic vapor phase epitaxy (OMVPE). The morphological and optical properties of Tm-doped GaN (GaN:Tm) and Tm-doped AlGaN (AlGaN:Tm) were investigated by Nomarski differential interference contrast microscopy and photoluminescence (PL) characterization. Nomarski images reveal an increase of surface roughness upon doping Tm into both GaN and AlGaN layers. The PL characterization of GaN:Tm shows emission in the near-infrared range originating from intra-4f shell transitions of Tm3+ ions. In contrast, AlGaN:Tm also exhibits blue light emission from Tm3+ ions. In that case, the wider band gap of the AlGaN host allows energy transfer to higher states of the Tm3+ ions. With time-resolved PL measurements, we could distinguish three types of luminescent sites of Tm3+ in the AlGaN:Tm layer, having different decay times. Our results confirm that Tm ions can be doped into GaN and AlGaN by OMVPE, and show potential for the fabrication of novel high-color-purity blue light emitting diodes.

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Junichi Takatsu

Utilization of native oxygen in Eu(RE)-doped GaN for enabling device compatibility in optoelectronic applications

Color-Tunablility in GaN LEDs Based on Atomic Emission Manipulation under Current Injection

Control of the energy transfer between Tm3+ and Yb3+ ions in Tm,Yb-codoped ZnO grown by sputtering-assisted metalorganic chemical vapor deposition

Detection of In segregation in InGaN by using Eu as a probe

Growth and optical characteristics of Tm-doped AlGaN layer grown by organometallic vapor phase epitaxy

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