High power glass laser research progresses in NLHPLP

Jianqiang Zhu; Jian Zhu; Xuechun Li; Baoqiang Zhu; Weixin Ma; Dean Liu; Cheng Liu; Xingqiang Lu; Wei Fan; Zhigang Liu; Dongfeng Zhao; Shenlei Zhou; Yanli Zhang; Li Wang; Mingying Sun; Bingyan Wang; Zhaoyang Jiao; Lei Ren; Guowen Zhang; Jie Miao; Zunqi Lin

doi:10.1117/12.2251731

High power glass laser research progresses in NLHPLP

Jianqiang Zhu
, Jian Zhu
, Xuechun Li
, Baoqiang Zhu
, Weixin Ma
, Dean Liu
, Cheng Liu
, Xingqiang Lu
, Wei Fan
, Zhigang Liu
, Dongfeng Zhao
, Shenlei Zhou
, Yanli Zhang
, Li Wang
, Mingying Sun
, Bingyan Wang
, Zhaoyang Jiao
, Lei Ren
, Guowen Zhang
, Jie Miao

Zunqi Lin

CAS - Shanghai Institute of Optics and Fine Mechanics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

14 Scopus citations

Abstract

A new high power laser facility with 8 beams and maximum output energy of one beam 5kJ/3.4ns/3ω has been performed and operated since 2015. Combined together the existing facilities have constructed a multifunction experimental platform including multi-pulse width of ns, ps and fs and active probing beam, which is an effective tool for Inertial Confinement Fusion (ICF) and High Energy Density (HED) researches. In addition another peculiar high power laser prototype pushes 1ω maximum output energy to 16kJ in 5ns and 17.5kJ in 20ns in flat-in-time pulse, this system is based on large aperture four-pass main amplifier architecture with 310mm×310mm output beam aperture. Meanwhile the near field and far field have good quality spanning large energy scope by use of a wide range of technologies, such as reasonable overall design technique, the integrated front end, cleanness class control, nonlinear laser propagation control, wave-front adaptive optics and precision measurement. Based on this excellent backup, 3ω damage research project is planning to be implemented. To realize the above aims, the beam expanding scheme in final transport spatial filter could be adopted considering tradeoff between the efficient utilization of 1ω output and 3ω damage threshold. Besides for deeply dissecting conversion process for beam characteristic influence of 1ω beam, WCI (Wave-front Code Image) instrument with refined structure would be used to measure optical field with simultaneous high precision amplitude and phase information, and what's more WCI can measure the 1ω, 2ω and 3ω optical field in the same time at same position, so we can analyze the 3ω beam quality evolution systematically, and ultimately to improve the 3ω limited output. In a word, we need pay attention to some aspects contents with emphasis for future huger laser facility development. The first is to focus the new technology application. The second is to solve the matching problem between 1ω beam and the 3ω beam. The last is to build the whole effective design in order to improve efficiency and cost performance.

Original language	English
Title of host publication	High Power Lasers for Fusion Research IV
Editors	John L. Collier, Abdul A. S. Awwal, Ruxin Li
Publisher	SPIE
ISBN (Electronic)	9781510606098
DOIs	https://doi.org/10.1117/12.2251731
State	Published - 2017
Externally published	Yes
Event	High Power Lasers for Fusion Research IV 2017 - San Francisco, United States Duration: 30 Jan 2017 → …

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	10084
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	High Power Lasers for Fusion Research IV 2017
Country/Territory	United States
City	San Francisco
Period	30/01/17 → …

Keywords

beam quality
high power laser facility
laser performance
optical filed

Access to Document

10.1117/12.2251731

Cite this

Zhu, J., Zhu, J., Li, X., Zhu, B., Ma, W., Liu, D., Liu, C., Lu, X., Fan, W., Liu, Z., Zhao, D., Zhou, S., Zhang, Y., Wang, L., Sun, M., Wang, B., Jiao, Z., Ren, L., Zhang, G., ... Lin, Z. (2017). High power glass laser research progresses in NLHPLP. In J. L. Collier, A. A. S. Awwal, & R. Li (Eds.), High Power Lasers for Fusion Research IV Article 1008405 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 10084). SPIE. https://doi.org/10.1117/12.2251731

@inproceedings{6d69b20adf4a4d798876c72d2fed0595,

title = "High power glass laser research progresses in NLHPLP",

abstract = "A new high power laser facility with 8 beams and maximum output energy of one beam 5kJ/3.4ns/3ω has been performed and operated since 2015. Combined together the existing facilities have constructed a multifunction experimental platform including multi-pulse width of ns, ps and fs and active probing beam, which is an effective tool for Inertial Confinement Fusion (ICF) and High Energy Density (HED) researches. In addition another peculiar high power laser prototype pushes 1ω maximum output energy to 16kJ in 5ns and 17.5kJ in 20ns in flat-in-time pulse, this system is based on large aperture four-pass main amplifier architecture with 310mm×310mm output beam aperture. Meanwhile the near field and far field have good quality spanning large energy scope by use of a wide range of technologies, such as reasonable overall design technique, the integrated front end, cleanness class control, nonlinear laser propagation control, wave-front adaptive optics and precision measurement. Based on this excellent backup, 3ω damage research project is planning to be implemented. To realize the above aims, the beam expanding scheme in final transport spatial filter could be adopted considering tradeoff between the efficient utilization of 1ω output and 3ω damage threshold. Besides for deeply dissecting conversion process for beam characteristic influence of 1ω beam, WCI (Wave-front Code Image) instrument with refined structure would be used to measure optical field with simultaneous high precision amplitude and phase information, and what's more WCI can measure the 1ω, 2ω and 3ω optical field in the same time at same position, so we can analyze the 3ω beam quality evolution systematically, and ultimately to improve the 3ω limited output. In a word, we need pay attention to some aspects contents with emphasis for future huger laser facility development. The first is to focus the new technology application. The second is to solve the matching problem between 1ω beam and the 3ω beam. The last is to build the whole effective design in order to improve efficiency and cost performance.",

keywords = "beam quality, high power laser facility, laser performance, optical filed",

author = "Jianqiang Zhu and Jian Zhu and Xuechun Li and Baoqiang Zhu and Weixin Ma and Dean Liu and Cheng Liu and Xingqiang Lu and Wei Fan and Zhigang Liu and Dongfeng Zhao and Shenlei Zhou and Yanli Zhang and Li Wang and Mingying Sun and Bingyan Wang and Zhaoyang Jiao and Lei Ren and Guowen Zhang and Jie Miao and Zunqi Lin",

note = "Publisher Copyright: {\textcopyright} 2017 SPIE.; High Power Lasers for Fusion Research IV 2017 ; Conference date: 30-01-2017",

year = "2017",

doi = "10.1117/12.2251731",

language = "英语",

series = "Proceedings of SPIE - The International Society for Optical Engineering",

publisher = "SPIE",

editor = "Collier, \{John L.\} and Awwal, \{Abdul A. S.\} and Ruxin Li",

booktitle = "High Power Lasers for Fusion Research IV",

address = "美国",

}

Zhu, J, Zhu, J, Li, X, Zhu, B, Ma, W, Liu, D, Liu, C, Lu, X, Fan, W, Liu, Z, Zhao, D, Zhou, S, Zhang, Y, Wang, L, Sun, M, Wang, B, Jiao, Z, Ren, L, Zhang, G, Miao, J & Lin, Z 2017, High power glass laser research progresses in NLHPLP. in JL Collier, AAS Awwal & R Li (eds), High Power Lasers for Fusion Research IV., 1008405, Proceedings of SPIE - The International Society for Optical Engineering, vol. 10084, SPIE, High Power Lasers for Fusion Research IV 2017, San Francisco, United States, 30/01/17. https://doi.org/10.1117/12.2251731

High power glass laser research progresses in NLHPLP. / Zhu, Jianqiang; Zhu, Jian; Li, Xuechun et al.
High Power Lasers for Fusion Research IV. ed. / John L. Collier; Abdul A. S. Awwal; Ruxin Li. SPIE, 2017. 1008405 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 10084).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - High power glass laser research progresses in NLHPLP

AU - Zhu, Jianqiang

AU - Zhu, Jian

AU - Li, Xuechun

AU - Zhu, Baoqiang

AU - Ma, Weixin

AU - Liu, Dean

AU - Liu, Cheng

AU - Lu, Xingqiang

AU - Fan, Wei

AU - Liu, Zhigang

AU - Zhao, Dongfeng

AU - Zhou, Shenlei

AU - Zhang, Yanli

AU - Wang, Li

AU - Sun, Mingying

AU - Wang, Bingyan

AU - Jiao, Zhaoyang

AU - Ren, Lei

AU - Zhang, Guowen

AU - Miao, Jie

AU - Lin, Zunqi

PY - 2017

Y1 - 2017

N2 - A new high power laser facility with 8 beams and maximum output energy of one beam 5kJ/3.4ns/3ω has been performed and operated since 2015. Combined together the existing facilities have constructed a multifunction experimental platform including multi-pulse width of ns, ps and fs and active probing beam, which is an effective tool for Inertial Confinement Fusion (ICF) and High Energy Density (HED) researches. In addition another peculiar high power laser prototype pushes 1ω maximum output energy to 16kJ in 5ns and 17.5kJ in 20ns in flat-in-time pulse, this system is based on large aperture four-pass main amplifier architecture with 310mm×310mm output beam aperture. Meanwhile the near field and far field have good quality spanning large energy scope by use of a wide range of technologies, such as reasonable overall design technique, the integrated front end, cleanness class control, nonlinear laser propagation control, wave-front adaptive optics and precision measurement. Based on this excellent backup, 3ω damage research project is planning to be implemented. To realize the above aims, the beam expanding scheme in final transport spatial filter could be adopted considering tradeoff between the efficient utilization of 1ω output and 3ω damage threshold. Besides for deeply dissecting conversion process for beam characteristic influence of 1ω beam, WCI (Wave-front Code Image) instrument with refined structure would be used to measure optical field with simultaneous high precision amplitude and phase information, and what's more WCI can measure the 1ω, 2ω and 3ω optical field in the same time at same position, so we can analyze the 3ω beam quality evolution systematically, and ultimately to improve the 3ω limited output. In a word, we need pay attention to some aspects contents with emphasis for future huger laser facility development. The first is to focus the new technology application. The second is to solve the matching problem between 1ω beam and the 3ω beam. The last is to build the whole effective design in order to improve efficiency and cost performance.

AB - A new high power laser facility with 8 beams and maximum output energy of one beam 5kJ/3.4ns/3ω has been performed and operated since 2015. Combined together the existing facilities have constructed a multifunction experimental platform including multi-pulse width of ns, ps and fs and active probing beam, which is an effective tool for Inertial Confinement Fusion (ICF) and High Energy Density (HED) researches. In addition another peculiar high power laser prototype pushes 1ω maximum output energy to 16kJ in 5ns and 17.5kJ in 20ns in flat-in-time pulse, this system is based on large aperture four-pass main amplifier architecture with 310mm×310mm output beam aperture. Meanwhile the near field and far field have good quality spanning large energy scope by use of a wide range of technologies, such as reasonable overall design technique, the integrated front end, cleanness class control, nonlinear laser propagation control, wave-front adaptive optics and precision measurement. Based on this excellent backup, 3ω damage research project is planning to be implemented. To realize the above aims, the beam expanding scheme in final transport spatial filter could be adopted considering tradeoff between the efficient utilization of 1ω output and 3ω damage threshold. Besides for deeply dissecting conversion process for beam characteristic influence of 1ω beam, WCI (Wave-front Code Image) instrument with refined structure would be used to measure optical field with simultaneous high precision amplitude and phase information, and what's more WCI can measure the 1ω, 2ω and 3ω optical field in the same time at same position, so we can analyze the 3ω beam quality evolution systematically, and ultimately to improve the 3ω limited output. In a word, we need pay attention to some aspects contents with emphasis for future huger laser facility development. The first is to focus the new technology application. The second is to solve the matching problem between 1ω beam and the 3ω beam. The last is to build the whole effective design in order to improve efficiency and cost performance.

KW - beam quality

KW - high power laser facility

KW - laser performance

KW - optical filed

UR - https://www.scopus.com/pages/publications/85021877265

U2 - 10.1117/12.2251731

DO - 10.1117/12.2251731

M3 - 会议稿件

AN - SCOPUS:85021877265

T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - High Power Lasers for Fusion Research IV

A2 - Collier, John L.

A2 - Awwal, Abdul A. S.

A2 - Li, Ruxin

PB - SPIE

T2 - High Power Lasers for Fusion Research IV 2017

Y2 - 30 January 2017

ER -

High power glass laser research progresses in NLHPLP

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