13.4 fs, 0.1 Hz OPCPA Front End for the 100 PW-Class Laser Facility

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13.4 fs, 0.1 Hz OPCPA Front End for the 100 PW-Class Laser Facility

Xinliang Wang, Xingyan Liu, Xiaoming Lu, Junchi Chen, Yingbin Long, Wenkai Li, Haidong Chen, Xun Chen, Peile Bai, Yanyan Li, Yujie Peng, Yanqi Liu, Fenxiang Wu, Cheng Wang, Zhaoyang Li, Yi Xu, Xiaoyan Liang, Yuxin Leng, Ruxin Li

文章导航 > Ultrafast Science > 2022 > 2022(3):

Xinliang Wang, Xingyan Liu, Xiaoming Lu, Junchi Chen, Yingbin Long, Wenkai Li, Haidong Chen, Xun Chen, Peile Bai, Yanyan Li, Yujie Peng, Yanqi Liu, Fenxiang Wu, Cheng Wang, Zhaoyang Li, Yi Xu, Xiaoyan Liang, Yuxin Leng, Ruxin Li. 2022: 13.4 fs, 0.1 Hz OPCPA Front End for the 100 PW-Class Laser Facility. 超快科学, 2022(3). doi: 10.34133/2022/9894358

引用本文:

Xinliang Wang, Xingyan Liu, Xiaoming Lu, Junchi Chen, Yingbin Long, Wenkai Li, Haidong Chen, Xun Chen, Peile Bai, Yanyan Li, Yujie Peng, Yanqi Liu, Fenxiang Wu, Cheng Wang, Zhaoyang Li, Yi Xu, Xiaoyan Liang, Yuxin Leng, Ruxin Li. 2022: 13.4 fs, 0.1 Hz OPCPA Front End for the 100 PW-Class Laser Facility. 超快科学, 2022(3). doi: 10.34133/2022/9894358

Xinliang Wang, Xingyan Liu, Xiaoming Lu, Junchi Chen, Yingbin Long, Wenkai Li, Haidong Chen, Xun Chen, Peile Bai, Yanyan Li, Yujie Peng, Yanqi Liu, Fenxiang Wu, Cheng Wang, Zhaoyang Li, Yi Xu, Xiaoyan Liang, Yuxin Leng, Ruxin Li. 2022: 13.4 fs, 0.1 Hz OPCPA Front End for the 100 PW-Class Laser Facility. Ultrafast Science, 2022(3). doi: 10.34133/2022/9894358

Citation:

Xinliang Wang, Xingyan Liu, Xiaoming Lu, Junchi Chen, Yingbin Long, Wenkai Li, Haidong Chen, Xun Chen, Peile Bai, Yanyan Li, Yujie Peng, Yanqi Liu, Fenxiang Wu, Cheng Wang, Zhaoyang Li, Yi Xu, Xiaoyan Liang, Yuxin Leng, Ruxin Li. 2022: 13.4 fs, 0.1 Hz OPCPA Front End for the 100 PW-Class Laser Facility. Ultrafast Science, 2022(3). doi: 10.34133/2022/9894358

Xinliang Wang, Xingyan Liu, Xiaoming Lu, Junchi Chen, Yingbin Long, Wenkai Li, Haidong Chen, Xun Chen, Peile Bai, Yanyan Li, Yujie Peng, Yanqi Liu, Fenxiang Wu, Cheng Wang, Zhaoyang Li, Yi Xu, Xiaoyan Liang, Yuxin Leng, Ruxin Li. 2022: 13.4 fs, 0.1 Hz OPCPA Front End for the 100 PW-Class Laser Facility. 超快科学, 2022(3). doi: 10.34133/2022/9894358

引用本文:

Xinliang Wang, Xingyan Liu, Xiaoming Lu, Junchi Chen, Yingbin Long, Wenkai Li, Haidong Chen, Xun Chen, Peile Bai, Yanyan Li, Yujie Peng, Yanqi Liu, Fenxiang Wu, Cheng Wang, Zhaoyang Li, Yi Xu, Xiaoyan Liang, Yuxin Leng, Ruxin Li. 2022: 13.4 fs, 0.1 Hz OPCPA Front End for the 100 PW-Class Laser Facility. 超快科学, 2022(3). doi: 10.34133/2022/9894358

Xinliang Wang, Xingyan Liu, Xiaoming Lu, Junchi Chen, Yingbin Long, Wenkai Li, Haidong Chen, Xun Chen, Peile Bai, Yanyan Li, Yujie Peng, Yanqi Liu, Fenxiang Wu, Cheng Wang, Zhaoyang Li, Yi Xu, Xiaoyan Liang, Yuxin Leng, Ruxin Li. 2022: 13.4 fs, 0.1 Hz OPCPA Front End for the 100 PW-Class Laser Facility. Ultrafast Science, 2022(3). doi: 10.34133/2022/9894358

Citation:

Xinliang Wang, Xingyan Liu, Xiaoming Lu, Junchi Chen, Yingbin Long, Wenkai Li, Haidong Chen, Xun Chen, Peile Bai, Yanyan Li, Yujie Peng, Yanqi Liu, Fenxiang Wu, Cheng Wang, Zhaoyang Li, Yi Xu, Xiaoyan Liang, Yuxin Leng, Ruxin Li. 2022: 13.4 fs, 0.1 Hz OPCPA Front End for the 100 PW-Class Laser Facility. Ultrafast Science, 2022(3). doi: 10.34133/2022/9894358

13.4 fs, 0.1 Hz OPCPA Front End for the 100 PW-Class Laser Facility

doi: 10.34133/2022/9894358

a State Key Laboratory of High Field Laser Physics and CAS Center for Excellence in Ultra-intense Laser Science, Shanghai Institute of Optics and Fine Mechanics (SIOM), Chinese Academy of Sciences (CAS), Shanghai 201800, China
b Center of Materials Science and Optoelectronics Engineering, University of Chinese Academy of Sciences, Beijing 100049, China
c Zhangjiang Laboratory, Shanghai 201210, China

基金项目:

Shanghai Municipal Science and Technology Major Project (2017SHZDZX02)

Natural Science Foundation of Shanghai (20ZR1464600)

This work is funded by the National Key R&D Program of China (2017YFE0123700)

Program of Shanghai Academic/Technology Research Leader (18XD1404200)

and International Partnership Program of Chinese Academy of Sciences (181231KYSB20200040).

Shanghai Sailing Program (19YF1453100)

National Natural Science Foundation of China (61925507)

Youth Innovation Promotion Association of the Chinese Academy of Sciences

The Strategic Priority Research Program of the Chinese Academy of Sciences (XDB1603)

通讯作者:
Correspondence should be addressed to Xiaoming Lu

xiaominglu@siom.ac.cn, Yi Xu

xuyi@siom.ac.cn, and Yuxin Leng

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- 文章访问数: 580
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- PDF下载量: 6
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出版历程
- 收稿日期: 2022-03-17
- 修回日期: 2022-05-27
- 刊出日期: 2022-06-18

13.4 fs, 0.1 Hz OPCPA Front End for the 100 PW-Class Laser Facility

a State Key Laboratory of High Field Laser Physics and CAS Center for Excellence in Ultra-intense Laser Science, Shanghai Institute of Optics and Fine Mechanics (SIOM), Chinese Academy of Sciences (CAS), Shanghai 201800, China
b Center of Materials Science and Optoelectronics Engineering, University of Chinese Academy of Sciences, Beijing 100049, China
c Zhangjiang Laboratory, Shanghai 201210, China

Funds:

Shanghai Municipal Science and Technology Major Project (2017SHZDZX02)

Natural Science Foundation of Shanghai (20ZR1464600)

This work is funded by the National Key R&D Program of China (2017YFE0123700)

Program of Shanghai Academic/Technology Research Leader (18XD1404200)

and International Partnership Program of Chinese Academy of Sciences (181231KYSB20200040).

Shanghai Sailing Program (19YF1453100)

National Natural Science Foundation of China (61925507)

Youth Innovation Promotion Association of the Chinese Academy of Sciences

The Strategic Priority Research Program of the Chinese Academy of Sciences (XDB1603)

摘要: Here, we report the recent progress on the front end developed for the 100 PW-class laser facility. Using 3 stages of optical parametric chirped-pulse amplification (OPCPA) based on lithium triborate (LBO) crystals, we realized a 5.26 J/0.1 Hz amplified output with a bandwidth over 200 nm near the center wavelength of 925 nm. After the compressor, we obtained a pulse duration of 13.4 fs. As the compression efficiency reached 67%, this OPCPA front end could potentially support a peak power of 263 TW at a repetition rate of 0.1 Hz. To the best of our knowledge, among all the 100 TW-level OPCPA systems, it shows the widest spectral width, the shortest pulse duration, and it is also the first OPCPA system working at a repetition-rate mode.
- OPCPA,femtosecond laser,Nonlinear optics
Abstract: Here, we report the recent progress on the front end developed for the 100 PW-class laser facility. Using 3 stages of optical parametric chirped-pulse amplification (OPCPA) based on lithium triborate (LBO) crystals, we realized a 5.26 J/0.1 Hz amplified output with a bandwidth over 200 nm near the center wavelength of 925 nm. After the compressor, we obtained a pulse duration of 13.4 fs. As the compression efficiency reached 67%, this OPCPA front end could potentially support a peak power of 263 TW at a repetition rate of 0.1 Hz. To the best of our knowledge, among all the 100 TW-level OPCPA systems, it shows the widest spectral width, the shortest pulse duration, and it is also the first OPCPA system working at a repetition-rate mode.
- OPCPA,femtosecond laser,Nonlinear optics

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文章访问数: 580
HTML全文浏览量: 1
PDF下载量: 6
被引次数: 0

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