Optimization of AlGaN-Based Deep Ultraviolet Laser Diodes with Graded Rectangular Superlattice Electron Blocking Layer and Graded Trapezoidal Superlattice Hole Blocking Layer

Zhang, Aoxiang; Jia, Lijun; Zhang, Pengfei; Xing, Zhongqiu; Wang, Fang; Liu, Yuhuai

doi:10.1007/s10946-022-10074-x

Cited by 3 publications

(1 citation statement)

References 31 publications

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“…type HBL and W-type EBL, which can enable UVD-LED to achieve better optical output power and IQE [14]. The design of gradient rectangular superlattice (GRSL) EBL and gradient trapezoidal superlattice (GTSL) HBL can improve the radiation recombination rate of UVD-LD and reduce the threshold voltage [15]. In addition, there are also some structural designs related to the EBL and HBL of UVD-LD [16][17][18].…”

Section: Laser Structure and Simulation Parameters 21 Laser Structurementioning

confidence: 99%

Improved Design of Slope-Shaped Hole-Blocking Layer and Electron-Blocking Layer in AlGaN-Based Near-Ultraviolet Laser Diodes

Gao,

Yang,

Jia

et al. 2024

Nanomaterials

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The injection and leakage of charge carriers have a significant impact on the optoelectronic performance of GaN-based lasers. In order to improve the limitation of the laser on charge carriers, a slope-shape hole-barrier layer (HBL) and electron-barrier layer (EBL) structure are proposed for near-UV (NUV) GaN-based lasers. We used Crosslight LASTIP for the simulation and theoretical analysis of the energy bands of HBL and EBL. Our simulations suggest that the energy bands of slope-shape HBL and EBL structures are modulated, which could effectively suppress carrier leakage, improve carrier injection efficiency, increase stimulated radiation recombination rate in quantum wells, reduce the threshold current, improve optical field distribution, and, ultimately, improve laser output power. Therefore, using slope-shape HBL and EBL structures can achieve the superior electrical and optical performance of lasers.

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Section: Laser Structure and Simulation Parameters 21 Laser Structurementioning

confidence: 99%

Improved Design of Slope-Shaped Hole-Blocking Layer and Electron-Blocking Layer in AlGaN-Based Near-Ultraviolet Laser Diodes

Gao,

Yang,

Jia

et al. 2024

Nanomaterials

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Enhanced characteristics in AlGaN-based deep ultraviolet light-emitting diodes with interval-graded barrier superlattice electron blocking layers

Jiang,

Zhu,

Xia

et al. 2024

Micro and Nanostructures

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A Review of Challenges, Solutions, and Improvements in the Performance of Deep Ultraviolet Semiconductor Laser Diodes (DUV LDs)

Rehman,

Bi,

Rahman

et al. 2024

ACS Appl. Electron. Mater.

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As eco-friendly light sources, AlGaN-based deep ultraviolet laser diodes (AlGaN DUV LDs) employing aluminum gallium nitride that emit between 200 and 300 nm have seen various applications in replacing the traditional mercury DUV light sources, such as photolithography, fluorescence microscopy, and water purification. In this review, we present structures, applications, and advantages of the AlGaN DUV LDs. In addition, limitations and challenges of the AlGaN DUV LDs will be covered. A comparative analysis of the previous researchers' work regarding strategies that include various designs of electron blocking layers (EBLs), cladding layers, waveguides, and quantum barriers in enhancing the performance of DUV LDs will be reviewed, and the underlying physics of these designs in improving the performance of AlGaN DUV LDs will be discussed.

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Optimization of AlGaN-Based Deep Ultraviolet Laser Diodes with Graded Rectangular Superlattice Electron Blocking Layer and Graded Trapezoidal Superlattice Hole Blocking Layer

Cited by 3 publications

References 31 publications

Improved Design of Slope-Shaped Hole-Blocking Layer and Electron-Blocking Layer in AlGaN-Based Near-Ultraviolet Laser Diodes

Improved Design of Slope-Shaped Hole-Blocking Layer and Electron-Blocking Layer in AlGaN-Based Near-Ultraviolet Laser Diodes

Enhanced characteristics in AlGaN-based deep ultraviolet light-emitting diodes with interval-graded barrier superlattice electron blocking layers

A Review of Challenges, Solutions, and Improvements in the Performance of Deep Ultraviolet Semiconductor Laser Diodes (DUV LDs)

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