Fig. 1. Schematic diagram of simulation of loaded plasma impinging on foam

Fig. 2. Radial distribution diagram of pressure (p) and radiation temperature (T_r) at t =3 ns and z=0.3 cm

Fig. 3. Evolution diagram of radiation temperature (T_r) in dynamic hohlraum at z= 0.3 cm andr= 0.2 cm

Fig. 4. Distribution cloud diagram of radiation temperature (K) at different time (t) after W plasma impinging on foam column

Fig. 5. Radial distribution of pressure and density at time t =4.5 ns and height z=0.3 cm)

Fig. 6. Schematic diagram of load plasma with disturbance impacting foam

Fig. 7. Radiation temperature (T_r) evolution in a dynamic hohlraum under different perturbation amplitudes on load

Fig. 8. Cloud image of density distribution under different initial disturbance amplitudes (A) at time t=5 ns

Fig. 9. Radiative temperature (T_r) distribution cloud at time t=5 ns with different initial disturbance amplitudes

Fig. 10. Radiation temperature evolution of dynamic hohlraum under different disturbance wavelengths ( ) on load 负载上不同扰动波长( )下动态黑腔辐射温度演化(r=0.1 cm)

Fig. 11. Density contour at different time under disturbance wavelengths cm and cm on load 波长分别为0.2 cm和0.1 cm不同时刻下密度云图

Fig. 12. Radiative temperature (T_r) distribution cloud at different time under disturbance wavelengths 0.2 cm and 0.06 cm on load plasma 波长分别为 0.2 cm和 0.06 cm不同时刻下辐射温度云图