对强激波给出了分析解。
开始的加速是由于强激波相关的磁场压缩导致的。
The initial acceleration is due to the strong shock-related magnetic field compression.
作为热波传播的力学后果,热波自然地以强激波为终结。
As a hydrodynamic consequence, thermal conduction results naturally in a strong shock wave.
对强激波作用下双原子分子振动与离解耦合的非平衡离解过程进行了理论计算。
A theoretical calculation is made of the nonequilibrium dissociation of the diatomic molecule with the vibration dissociation coupling behind a strong shock wave front.
本研究是用实验观测的方法判明低密度空气中发生的强激波的构造并进而分析其特性。
The research tries to distinguish structure of strong shock-wave generated in low-density air by means of test and observation, and then analyse its characteristics.
这些强负相关性不能用聚束效应解释,而能用喷流中激波的传播来解释。
It is suggested that not beaming effect but shock wave propagation in jet account for these strong flux-polarization anticorrelations.
声压级在相交激波点附近出现剧烈变化,喷管出口处的激波和排气羽流造成强噪声。
The sound pressure level changes acutely in shock intersection, and shocks outside nozzle and exhaust plume cause strong noise.
管内出现强反射激波。
结果表明:强的激波结构使激光束远场强度分布发生了向光程增大方向的明显偏折,对于波长不同的激光束得到光束通过流场后的远场强度分布不同。
Result shows that laser beam deflects to the direction which optical path length increase. The far-field intensity of laser beam is not the same for the difference of wavelength.
结果表明:强的激波结构使激光束远场强度分布发生了向光程增大方向的明显偏折,对于波长不同的激光束得到光束通过流场后的远场强度分布不同。
Result shows that laser beam deflects to the direction which optical path length increase. The far-field intensity of laser beam is not the same for the difference of wavelength.
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