Acta Physica Sinica, Volume. 68, Issue 19, 195202-1(2019)
Fig. 1. (a) Temporal and spatial variation of ion density distribution; (b) the ion density distribution at 2100
Fig. 2. (a) Spatio-temporal evolution of the electric field
Fig. 3. (a) Comparison of the generation time of plasma density cavity with different initial electron temperatures at quarter critical density; (b) comparison of the generation time of plasma density cavity with different initial ion temperatures at quarter critical density.(a)在不同的初始电子温度下, 1/4临界密度处等离子体密度坑的产生时间对比; (b)在不同的初始离子温度下, 1/4临界密度处等离子体密度坑的产生时间对比
Fig. 4. (a) Temporal and spatial variation of ion density distribution; (b) after the formation of density cavities, the ions near the density cavities have been accelerated to a higher energy at the moment of 3200
Fig. 5. (a), (c), (e) Temporal and spatial variation of ion density distribution in different time windows; (b), (d), (f) the longitudinal field
Fig. 6. (a), (c) The
Fig. 7. (a) The temporal evolution of left traveling wave in frequency space; (b) the temporal evolution of SRS; (c) the temporal evolution of SBS.(a)左行波在频率空间中随时间的变化; (b) SRS的份额随时间的变化; (c) SBS的份额随时间的变化
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Charles F. Wu, Yao Zhao, Su-Ming Weng, Min Chen, Zheng-Ming Sheng.
Received: Jul. 8, 2019
Accepted: --
Published Online: Sep. 16, 2020
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