Numerical analysis of InGaAs-InP multiple-quantum well laser emitting at 2 μ m

Abdulrahman Al-Muhanna; Abdelmajid Salhi

doi:10.1007/s11082-013-9796-8

Numerical analysis of InGaAs-InP multiple-quantum well laser emitting at 2 μ m

Abdulrahman Al-Muhanna^*, Abdelmajid Salhi

^*Corresponding author for this work

King Abdulaziz City for Science and Technology

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

1 Citation (Scopus)

Abstract

Multiple-quantum well InGaAs laser structures emitting at 2 μ m with different barriers are modeled using commercial software that combines gain calculation with 2-D simulations of carrier transport and waveguiding. The model is calibrated using experimental results. The simulated results show a non-uniform distribution of carriers in different quantum wells with InGaAlAs barriers which affects their contribution to the gain. The carrier uniformity and a reduction in threshold current density are observed when we use an InGaAs barrier material. The quantum well number was varied from 2 to 4 in both structures and a comparison of the threshold current and its variation with temperature were investigated.

Original language	English
Pages (from-to)	851-861
Number of pages	11
Journal	Optical and Quantum Electronics
Volume	46
Issue number	7
DOIs	https://doi.org/10.1007/s11082-013-9796-8
Publication status	Published - Jul 2014
Externally published	Yes

Keywords

InGaAlAs/InP
Numerical analysis
Quantum wells
Semiconductor lasers

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10.1007/s11082-013-9796-8

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title = "Numerical analysis of InGaAs-InP multiple-quantum well laser emitting at 2 μ m",

abstract = "Multiple-quantum well InGaAs laser structures emitting at 2 μ m with different barriers are modeled using commercial software that combines gain calculation with 2-D simulations of carrier transport and waveguiding. The model is calibrated using experimental results. The simulated results show a non-uniform distribution of carriers in different quantum wells with InGaAlAs barriers which affects their contribution to the gain. The carrier uniformity and a reduction in threshold current density are observed when we use an InGaAs barrier material. The quantum well number was varied from 2 to 4 in both structures and a comparison of the threshold current and its variation with temperature were investigated.",

keywords = "InGaAlAs/InP, Numerical analysis, Quantum wells, Semiconductor lasers",

author = "Abdulrahman Al-Muhanna and Abdelmajid Salhi",

year = "2014",

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AU - Al-Muhanna, Abdulrahman

AU - Salhi, Abdelmajid

PY - 2014/7

Y1 - 2014/7

N2 - Multiple-quantum well InGaAs laser structures emitting at 2 μ m with different barriers are modeled using commercial software that combines gain calculation with 2-D simulations of carrier transport and waveguiding. The model is calibrated using experimental results. The simulated results show a non-uniform distribution of carriers in different quantum wells with InGaAlAs barriers which affects their contribution to the gain. The carrier uniformity and a reduction in threshold current density are observed when we use an InGaAs barrier material. The quantum well number was varied from 2 to 4 in both structures and a comparison of the threshold current and its variation with temperature were investigated.

AB - Multiple-quantum well InGaAs laser structures emitting at 2 μ m with different barriers are modeled using commercial software that combines gain calculation with 2-D simulations of carrier transport and waveguiding. The model is calibrated using experimental results. The simulated results show a non-uniform distribution of carriers in different quantum wells with InGaAlAs barriers which affects their contribution to the gain. The carrier uniformity and a reduction in threshold current density are observed when we use an InGaAs barrier material. The quantum well number was varied from 2 to 4 in both structures and a comparison of the threshold current and its variation with temperature were investigated.

KW - InGaAlAs/InP

KW - Numerical analysis

KW - Quantum wells

KW - Semiconductor lasers

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SP - 851

EP - 861

JO - Optical and Quantum Electronics

JF - Optical and Quantum Electronics

IS - 7

ER -

Numerical analysis of InGaAs-InP multiple-quantum well laser emitting at 2 μ m

Abstract

Keywords

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