Yaru Su , Zhan Wang , Yankun Gong , Chunxin Yuan , Jingliang Zhang
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引用次数: 0
摘要
由于内孤波的传播方向不同,在海洋中经常会发生内孤波之间的斜向相互作用,而这些内孤波又会因地形的变化和地球的自转而进一步被调节和重塑。本文利用可变系数旋转 Kadomtsev-Petviashvili(KP)方程研究了不同纬度的一维(1D)和二维(2D)坡岸地形和自转情况下初始 X 形波的相互作用。基于解析解,根据初始振幅和斜角的不同,长时间结果可分为三种类型。然后,数值结果表明,足够浅的一维滩岸地形会导致极性变化,从而重塑斜交的波形,使其类似于由直波峰线组成的波网。如果将旋转也考虑在内,那么非线性相互作用就会受到抑制,从而导致最终长时间波包中的波浪减少,波形网中的交汇点增多。更重要的是,旋转和局部小而窄的峡谷和高原(位于一维滩涂地形上)的共同作用,可以显著调节斜向相互作用所诱发的波形,使其更像有序的波浪轨迹。
Interaction of two oblique internal solitary waves in the presence of shoaling topography and rotation
The oblique interactions between internal solitary waves frequently occur in the ocean owing to their different propagation directions after originated from more than one potential generation sites, which can further be modulated and reshaped by the varying topography and the Earth’s rotation. Here a variable-coefficient rotational Kadomtsev–Petviashvili (KP) equation is devoted to investigate the interaction of initial X-shaped waves in presence of the respective one-dimensional (1D) and two-dimensional (2D) slope-shelf topography and rotations at different latitudes. Based on the analytical solutions, the long-time results can be classified as three types depending on the initial amplitudes and oblique angles. Then, numerical results suggest that the sufficiently shallow 1D shoaling topography can render polarity change, which reshapes the waveform of oblique interactions to resemble webs composed of straight wave crest lines. If the rotation were also taken into account, then the nonlinear interactions are inhibited resulting in less waves in the eventual long-time wave packets and more junction points in the webs of waveform. More importantly, the combined effect of rotation and localized small and narrow canyons and plateaus resting on 1D shoaling topography can significantly modulate the waveforms induced by oblique interactions to make them more like rank-ordered wavetrains.
期刊介绍:
The main objective of Ocean Modelling is to provide rapid communication between those interested in ocean modelling, whether through direct observation, or through analytical, numerical or laboratory models, and including interactions between physical and biogeochemical or biological phenomena. Because of the intimate links between ocean and atmosphere, involvement of scientists interested in influences of either medium on the other is welcome. The journal has a wide scope and includes ocean-atmosphere interaction in various forms as well as pure ocean results. In addition to primary peer-reviewed papers, the journal provides review papers, preliminary communications, and discussions.