Infrared Defect Emission and Thermal Effect in High Power Diode Lasers

Fangyu Yue; Feng Mao; Han Wang; Xiaoling Zhang; Ye Chen; Chengbin Jing; Junhao Chu

doi:10.3788/LOP56.110001

Infrared Defect Emission and Thermal Effect in High Power Diode Lasers

Fangyu Yue
, Feng Mao
, Han Wang
, Xiaoling Zhang
, Ye Chen
, Chengbin Jing
, Junhao Chu

School of Physics and Electronic Science

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

4 Scopus citations

Abstract

High power laser diodes (HPLDs) have been widely used in the defense sector, material processing, and pumping sources, considering their advantages such as high efficiency, long lifetime, small size, and low cost. This study describes the types and emission characteristics of the defects and the related advances in GaAs-based near infrared lasers and GaN-based blue-green lasers. By focusing on the commercial devices and using the condition- variable emission spectra for separated wavebands and the corresponding thermal imaging, the origination and spatial distribution of the emission signals related to the defects are determined. The internal catastrophic optical damage (COD) mechanism is also analyzed. Furthermore, the limitation of the current "external COL)" model for interpreting the thermal evolution mechanism of the devices is pointed out.

Original language	English
Article number	110001
Journal	Laser and Optoelectronics Progress
Volume	56
Issue number	11
DOIs	https://doi.org/10.3788/LOP56.110001
State	Published - May 2019

Keywords

High power diode laser
Infrared defect emission
Lasers
Thermal effect

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10.3788/LOP56.110001

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title = "Infrared Defect Emission and Thermal Effect in High Power Diode Lasers",

abstract = "High power laser diodes (HPLDs) have been widely used in the defense sector, material processing, and pumping sources, considering their advantages such as high efficiency, long lifetime, small size, and low cost. This study describes the types and emission characteristics of the defects and the related advances in GaAs-based near infrared lasers and GaN-based blue-green lasers. By focusing on the commercial devices and using the condition- variable emission spectra for separated wavebands and the corresponding thermal imaging, the origination and spatial distribution of the emission signals related to the defects are determined. The internal catastrophic optical damage (COD) mechanism is also analyzed. Furthermore, the limitation of the current {"}external COL){"} model for interpreting the thermal evolution mechanism of the devices is pointed out.",

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author = "Fangyu Yue and Feng Mao and Han Wang and Xiaoling Zhang and Ye Chen and Chengbin Jing and Junhao Chu",

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doi = "10.3788/LOP56.110001",

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TY - JOUR

T1 - Infrared Defect Emission and Thermal Effect in High Power Diode Lasers

AU - Yue, Fangyu

AU - Mao, Feng

AU - Wang, Han

AU - Zhang, Xiaoling

AU - Chen, Ye

AU - Jing, Chengbin

AU - Chu, Junhao

PY - 2019/5

Y1 - 2019/5

N2 - High power laser diodes (HPLDs) have been widely used in the defense sector, material processing, and pumping sources, considering their advantages such as high efficiency, long lifetime, small size, and low cost. This study describes the types and emission characteristics of the defects and the related advances in GaAs-based near infrared lasers and GaN-based blue-green lasers. By focusing on the commercial devices and using the condition- variable emission spectra for separated wavebands and the corresponding thermal imaging, the origination and spatial distribution of the emission signals related to the defects are determined. The internal catastrophic optical damage (COD) mechanism is also analyzed. Furthermore, the limitation of the current "external COL)" model for interpreting the thermal evolution mechanism of the devices is pointed out.

AB - High power laser diodes (HPLDs) have been widely used in the defense sector, material processing, and pumping sources, considering their advantages such as high efficiency, long lifetime, small size, and low cost. This study describes the types and emission characteristics of the defects and the related advances in GaAs-based near infrared lasers and GaN-based blue-green lasers. By focusing on the commercial devices and using the condition- variable emission spectra for separated wavebands and the corresponding thermal imaging, the origination and spatial distribution of the emission signals related to the defects are determined. The internal catastrophic optical damage (COD) mechanism is also analyzed. Furthermore, the limitation of the current "external COL)" model for interpreting the thermal evolution mechanism of the devices is pointed out.

KW - High power diode laser

KW - Infrared defect emission

KW - Lasers

KW - Thermal effect

UR - https://www.scopus.com/pages/publications/85067809309

U2 - 10.3788/LOP56.110001

DO - 10.3788/LOP56.110001

M3 - 文章

AN - SCOPUS:85067809309

SN - 1006-4125

VL - 56

JO - Laser and Optoelectronics Progress

JF - Laser and Optoelectronics Progress

IS - 11

M1 - 110001

ER -

Infrared Defect Emission and Thermal Effect in High Power Diode Lasers

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