该方法在计算大尺寸空泡的后向散射时不受微粒尺寸参数和折射率的限制,且避免了复杂的级数形式,与基于米散射理论或德拜级数展开的算法相比,具有更快的运算速度。
The calculation process of the method is independent of size parameters, and it is more stable and faster than the traditional methods based on Lorenz-Mie theory or Debye-series expansion.
该方法在计算大尺寸空泡的后向散射时不受微粒尺寸参数和折射率的限制,且避免了复杂的级数形式,与基于米散射理论或德拜级数展开的算法相比,具有更快的运算速度。
The calculation process of the method is independent of size parameters, and it is more stable and faster than the traditional methods based on Lorenz-Mie theory or Debye-series expansion.
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