分析各项异性材料中超声产生和传播的模型必须包括各向异性和温度对波传播中色散的影响。
Clearly models for ultrasonic generation and propagation in anisotropic materials must include the effect of anisotropy and temperature on the dispersive wave propagation.
研究结果表明,GAP的色散分量随着温度的升高而降低,总表面能表现出与色散分量相一致的规律。
The results show that the dispersive component of the surface free energy of GAP decreases with increasing temperature and the total surface free energy takes on the consistent character.
同时,将我们的计算范围扩展到适中相对论温度以及弱相对论温度,得到完全相对论性无磁化等离子体色散关系图像。
In the meantime, the moderate and weakly relativistic cases are also calculated to get the fully relativistic plasmons dispersion relationship.
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