Numerical Study on Optimization of ActiveLayer Structures for GaN/AlGaN Multiple-Quantum-Well Laser Diodes

Jun-Rong Chen; Tsung-Shine Ko; Po-Yuan Su; Tien-Chang Lu; Hao-Chung Kuo; Yen-Kuang Kuo; Shing-Chung Wang

Journal of Lightwave Technology
Vol. 26,
Issue 17,
pp. 3155-3165
(2008)

Numerical Study on Optimization of ActiveLayer Structures for GaN/AlGaN Multiple-Quantum-Well Laser Diodes

Jun-Rong Chen, Tsung-Shine Ko, Po-Yuan Su, Tien-Chang Lu, Hao-Chung Kuo, Yen-Kuang Kuo, and Shing-Chung Wang

Not Accessible

Your library or personal account may give you access

Get PDF
Email
Share
Get Citation
Copy Citation Text
Jun-Rong Chen, Tsung-Shine Ko, Po-Yuan Su, Tien-Chang Lu, Hao-Chung Kuo, Yen-Kuang Kuo, and Shing-Chung Wang, "Numerical Study on Optimization of ActiveLayer Structures for GaN/AlGaN Multiple-Quantum-Well Laser Diodes," J. Lightwave Technol. 26, 3155-3165 (2008)

Export Citation
- BibTex
- Endnote (RIS)
- HTML
- Plain Text
Save article

Abstract

Theoretical analysis for different active layer structures is performed to minimize the laser threshold current of the ultraviolet GaN/AlGaN multiple-quantum-well laser diodes by using advanced device simulation. The simulation results show that the lower threshold current can be obtained when the number of quantum wells is two or three and the aluminum composition in the barrier layer is about 10%–12%. This result is attributed to several different effects including electron leakage current, nonuniform carrier distribution, interface charge density induced by spontaneous and piezoelectric polarization, and optical confinement factor. These internal physical mechanisms are investigated by theoretical calculation to analyze the effects of quantum-well number and different aluminum compositions in barrier layer on laser threshold properties. Furthermore, the effect of quantum-well thickness is discussed as well. It is found that the optimal quantum-well thickness is about 3 nm due to the balance of the advantages of a large confinement factor against the disadvantages of significant quantum-confined Stark effect (QCSE).

PDF Article

More Like This

Improving temperature characteristics of GaN-based ultraviolet laser diodes by using InGaN/AlGaN quantum wells

Jing Yang, Yu-Jie Huang, Zong-Shun Liu, Yu-Heng Zhang, Feng Liang, and De-Gang Zhao
Opt. Lett. 49(5) 1305-1308 (2024)

GaN-based ultraviolet light-emitting diodes with AlN/GaN/InGaN multiple quantum wells

Hung-Ming Chang, Wei-Chih Lai, Wei-Shou Chen, and Shoou-Jinn Chang
Opt. Express 23(7) A337-A345 (2015)

Performance of InGaN based green laser diodes improved by using an asymmetric InGaN/InGaN multi-quantum well active region

J. Yang, D. G. Zhao, D. S. Jiang, X. Li, F. Liang, P. Chen, J. J. Zhu, Z. S. Liu, S. T. Liu, L. Q. Zhang, and M. Li
Opt. Express 25(9) 9595-9602 (2017)

Previous Article Next Article

Cited By

You do not have subscription access to this journal. Cited by links are available to subscribers only. You may subscribe either as an Optica member, or as an authorized user of your institution.

Contact your librarian or system administrator
or
Login to access Optica Member Subscription

Abstract

Cited By

Journal of Lightwave Technology