of;
Nuclear;
Science;
and;
Technology,;
Beijing;
Normal;
University,;
Beijing;
100875;
for;
Fusion;
Theory;
and;
Simulation,;
Zhejiang;
University,;
Hangzhou;
310027;
fur;
Theoretische;
Physik;
I,;
Ruhr-Universitat;
Boehum,;
D-44780;
Bochum,;
Germany;
高密度等离子体; 超强激光脉冲; 电子加速; 脉冲驱动; 气泡; 墙; 优化方案; 纵向收缩;