论文标题
蠕变潮汐理论。具有对齐层的分化体的方程式
Creep tide theory. Equations for differentiated bodies with aligned layers
论文作者
论文摘要
蠕变潮汐理论用于建立由均匀层在共旋转中形成的分化体的潮汐演化的基本方程。身体的质量浓度由液体爱情编号$ k_f $给出。该公式由对高偏心系统有效的系列扩展给出。它们等同于达尔文的方程式,但正式更紧凑。讨论了$ k_f = 0.942 $的Exceladus的申请。
The creep tide theory is used to establish the basic equations of the tidal evolution of differentiated bodies formed by aligned homogeneous layers in co-rotation. The mass concentration of the body is given by the fluid Love number $k_f$. The formulas are given by series expansions valid for high eccentricity systems. They are equivalent to Darwin's equations, but formally more compact. An application to the case of Enceladus, with $k_f=0.942$, is discussed.
