OPCPA 系统
光参数啁啾脉冲放大技术(OPCPA)是目前唯一可以同时提供高峰值和高平均功率的激光技术,同时也可以为高难度科学应用提供所需的少周期脉冲持续时间。我们对于这些需求的答案是基于多年来开发制造光参量放大器和飞秒激光器的经验而来的一系列尖端OPCPA产品。
- 最短脉冲、极高的峰值功率和平均功率
- 800 nm, 1600 nm, 2000 nm, and 3000 nm波长
- TW 级的峰值功率
- 脉宽<6 fs
- 高达 1 MHz 的重复频率
- CEP稳定性 < 250mrad
| 产品 1) | 最大输出单脉冲能量 | 最大重复频率 | 最短脉宽 | 最大峰值功率 | CEP 稳定 | 特有功能 |
|---|---|---|---|---|---|---|
 |
0.8 mJ | 1 MHz | < 6 fs | ≈ 100 GW | < 250 mrad | 设计紧凑 |
 |
120 mJ | 1 kHz | < 9 fs | ≈ 5 TW | < 250 mrad | 高达TW级峰值功率 |
- 详情咨询 sales@lightcon.com。
- < 6 fs 变换极限脉宽
- 高达 1 MHz 的重复频率
- 高达 320 W 的泵浦功率
- 高达 8 mJ 的泵浦单脉冲能量
- CEP 稳定选项
- 占地面积小
- 高达 1 kHz 的 TW 级峰值功率脉冲
- 脉冲前对比度 > 1012
- CEP 稳定性 < 250 mrad
- 脉宽 < 9 fs
- 光谱-时间输出脉冲整形选配功能
Utilizing the temporal superresolution approach in an optical parametric synthesizer to generate multi-TW sub-4-fs light pulses
A. A. Muschet, A. D. Andres, P. Fischer, R. Salh, and L. Veisz, Optics Express 3 (30), 4374 (2022).
SYLOS lasers – the frontier of few-cycle, multi-TW, kHz lasers for ultrafast applications at extreme light infrastructure attosecond light pulse source
S. Toth, T. Stanislauskas, I. Balciunas, R. Budriunas, J. Adamonis, R. Danilevicius, K. Viskontas, D. Lengvinas, G. Veitas, D. Gadonas et al., Journal of Physics: Photonics 4 (2), 045003 (2020).
Thin-disk laser-pumped OPCPA system delivering 44 TW few-cycle pulses
M. Kretschmar, J. Tuemmler, B. Schütte, A. Hoffmann, B. Senfftleben, M. Mero, M. Sauppe, D. Rupp, M. J. J. Vrakking, I. Will et al., Optics Express 23 (28), 34574 (2020).
53 W average power CEP-stabilized OPCPA system delivering 55 TW few cycle pulses at 1 kHz repetition rate
R. Budriūnas, T. Stanislauskas, J. Adamonis, A. Aleknavičius, G. Veitas, D. Gadonas, S. Balickas, A. Michailovas, and A. Varanavičius, Optics Express 5 (25), 5797 (2017).
Performance tests of the 5 TW, 1 kHz, passively CEP-stabilized ELI-ALPS SYLOS few-cycle laser system (Conference Presentation)
T. Stanislauskas, R. Budriunas, G. Veitas, D. Gadonas, J. Adamonis, A. Aleknavičius, G. Masian, Z. Kuprionis, D. Hoff, G. G. Paulus et al., in High-Power, High-Energy, and High-Intensity Laser Technology III, J. Hein, ed. (SPIE, 2017).
The ELI-ALPS facility: the next generation of attosecond sources
S. Kühn, M. Dumergue, S. Kahaly, S. Mondal, M. Füle, T. Csizmadia, B. Farkas, B. Major, Z. Várallyay, E. Cormier et al., Journal of Physics B: Atomic, Molecular and Optical Physics 13 (50), 132002 (2017).
Table top TW-class OPCPA system driven by tandem femtosecond Yb:KGW and picosecond Nd:YAG lasers
T. Stanislauskas, R. Budriūnas, R. Antipenkov, A. Zaukevičius, J. Adamonis, A. Michailovas, L. Giniūnas, R. Danielius, A. Piskarskas, and A. Varanavičius, Optics Express 2 (22), 1865 (2014).