High power and efficiency of a 2044-nm c-cut Tm, Ho:YAlO3 laser

Li, L. J.; Yao, Baoquan; Qin, Jinping; Wu, Di; Wang, Y. M.; Wang, J.; He, Zongling; Liu, W. Y.; Chen, J. J.; Wang, Y. Z.; Zhang, Z. G.; Li, Ai‐Hua

doi:10.1134/s1054660x11050173

Cited by 27 publications

(13 citation statements)

References 20 publications

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“…It was confirmed that as RF power increases, or working pressure decreases, or flow ratio of T 2 B decreases, content of polyethylene group inside the coating could be notably enhanced which leads to improved thermal and mechanical performance [9][10][11][12] . In fiscal year (FY) 2013, via further optimization of the mechanical property, fracture problem frequently occurred on thin-walled GDP shells during pyrolysis of PAMS mandrel was tackled.…”

Section: Gdp Shellmentioning

confidence: 73%

Development of target fabrication for laser-driven inertial confinement fusion at research center of laser fusion

Wang

et al. 2017

High Pow Laser Sci Eng

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As the basic conditions for laser inertial confinement fusion (ICF) research, the targets are required to be well specified and elaborately fabricated. Because of the characteristics of the targets, the research and fabrication process is a systematically tough task, which needs fundamental and deep insights into film deposition, mechanical machining, precise measurement and assembly, etc. As a result, knowledge of material science, physics, mechanical as well as electronics is a necessity for target researchers. In this paper, we give introductions to the state of art on target fabrication for ICF research at Research Center of Laser Fusion (RCLF) in China.

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Section: Gdp Shellmentioning

confidence: 73%

Development of target fabrication for laser-driven inertial confinement fusion at research center of laser fusion

Wang

et al. 2017

High Pow Laser Sci Eng

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“…Using the dichroic as the reflection coupler, Optical Fiber Technology Centre of University of Sydney reported their 120 W output power with slope efficiency of 57% from a 4 m-long Tm 3+ -doped silica glass fiber pumped at both fiber ends by two 793 nm LD [16]. With two dichroics establishing the cavity, the National Laboratory of Tunable Laser Technology of Harbin Institute of Technology obtained 8.4 W output power at approximately 2 m with a slope efficiency of 57% from a 1.7 m long Tm 3+ -doped LAM fiber in 2006 [17]. The next year, Shanghai Institute of Optics and Fine Mechanics of Chinese Academy of Science realized 8 W output power from a Tm 3+ -doped silica glass fiber laser around 2.05 m [18].…”

Section: Introductionmentioning

confidence: 97%

High efficiency Tm3+ fiber laser of seed amplification

Song

2014

Optik

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“…Using the dichroic as the reflection coupler, Optical Fiber Technology Centre of Univer sity of Sydney reported their 120 W output power with slope efficiency of 57% from a 4 m long Tm 3+ doped silica glass fiber pumped at both fiber ends by two 793 nm LD [16]. With two dichroics establishing the cavity, the National Laboratory of Tunable Laser Technology of Harbin Institute of Technology obtained 8.4 W output power at approximately 2 µm with a slope efficiency of 57% from a 1.7 m long Tm 3+ doped LAM fiber in 2006 [17]. The next year, Shang hai Institute of Optics and Fine Mechanics of Chinese Academy of Science realized 8 W output power from a Tm 3+ doped silica glass fiber laser around 2.05 µm [13].…”

Section: Introductionmentioning

confidence: 98%