Contribution of solitons to enhanced rogue wave occurrence in shallow depths: a case study in the southern North Sea

IF 4.2 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Natural Hazards and Earth System Sciences Pub Date : 2023-06-07 DOI:10.5194/nhess-23-2053-2023
I. Teutsch, Markus Brühl, R. Weisse, S. Wahls
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引用次数: 2

Abstract

Abstract. The shallow waters off the coast of Norderney in the southern North Sea are characterised by a higher frequency of rogue wave occurrences than expected. Here, rogue waves refer to waves exceeding twice the significant wave height. The role of nonlinear processes in the generation of rogue waves at this location is currently unclear. Within the framework of the Korteweg–de Vries (KdV) equation, we investigated the discrete soliton spectra of measured time series at Norderney to determine differences between time series with and without rogue waves. For this purpose, we applied a nonlinear Fourier transform (NLFT) based on the Korteweg–de Vries equation with vanishing boundary conditions (vKdV-NLFT). At measurement sites where the propagation of waves can be described by the KdV equation, the solitons in the discrete nonlinear vKdV-NLFT spectrum correspond to physical solitons. We do not know whether this is the case at the considered measurement site. In this paper, we use the nonlinear spectrum to classify rogue wave and non-rogue wave time series. More specifically, we investigate if the discrete nonlinear spectra of measured time series with visible rogue waves differ from those without rogue waves. Whether or not the discrete part of the nonlinear spectrum corresponds to solitons with respect to the conditions at the measurement site is not relevant in this case, as we are not concerned with how these spectra change during propagation. For each time series containing a rogue wave, we were able to identify at least one soliton in the nonlinear spectrum that contributed to the occurrence of the rogue wave in that time series. The amplitudes of these solitons were found to be smaller than the crest height of the corresponding rogue wave, and interaction with the continuous wave spectrum is needed to fully explain the observed rogue wave. Time series with and without rogue waves showed different characteristic soliton spectra. In most of the spectra calculated from rogue wave time series, most of the solitons clustered around similar heights, but the largest soliton was outstanding, with an amplitude significantly larger than all other solitons. The presence of a clearly outstanding soliton in the spectrum was found to be an indicator pointing towards the enhanced probability of the occurrence of a rogue wave in the time series. Similarly, when the discrete spectrum appears as a cluster of solitons without the presence of a clearly outstanding soliton, the presence of a rogue wave in the observed time series is unlikely. These results suggest that soliton-like and nonlinear processes substantially contribute to the enhanced occurrence of rogue waves off Norderney.
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孤子对浅层异常波发生增强的贡献:以北海南部为例
摘要北海南部诺德尼海岸的浅水区的特点是异常浪发生的频率比预期的要高。在这里,异常波是指超过有效波高两倍的波。非线性过程在该位置产生异常波中的作用目前尚不清楚。在Korteweg-de Vries (KdV)方程的框架内,我们研究了Norderney测量时间序列的离散孤子谱,以确定有和没有异常波的时间序列之间的差异。为此,我们应用了基于具有消失边界条件的Korteweg-de Vries方程(vKdV-NLFT)的非线性傅里叶变换。在波的传播可以用KdV方程描述的测量点,离散非线性vKdV-NLFT谱中的孤子对应于物理孤子。我们不知道在考虑的测量地点是否存在这种情况。本文利用非线性谱对异常波和非异常波时间序列进行分类。更具体地说,我们研究了有可见异常波的测量时间序列的离散非线性谱是否与没有异常波的测量时间序列不同。在这种情况下,非线性谱的离散部分是否与测量点的条件相对应的孤子无关,因为我们不关心这些谱在传播过程中如何变化。对于每个包含异常波的时间序列,我们能够在非线性谱中识别出至少一个导致该时间序列中异常波发生的孤子。发现这些孤子的振幅小于相应异常波的波峰高度,并且需要与连续波谱相互作用才能充分解释观测到的异常波。有异常波和无异常波的时间序列表现出不同的特征孤子谱。在从异常波时间序列计算的大部分光谱中,大多数孤子都聚集在相似的高度附近,但最大的孤子非常突出,其振幅明显大于所有其他孤子。发现光谱中明显突出的孤子的存在是一个指示,表明在时间序列中出现异常波的可能性增加。类似地,当离散谱表现为一簇孤子而没有明显突出的孤子存在时,在观测到的时间序列中不太可能存在异常波。这些结果表明,类孤子和非线性过程在很大程度上促进了诺德尼附近异常波的发生。
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来源期刊
Natural Hazards and Earth System Sciences
Natural Hazards and Earth System Sciences 地学-地球科学综合
CiteScore
7.60
自引率
6.50%
发文量
192
审稿时长
3.8 months
期刊介绍: Natural Hazards and Earth System Sciences (NHESS) is an interdisciplinary and international journal dedicated to the public discussion and open-access publication of high-quality studies and original research on natural hazards and their consequences. Embracing a holistic Earth system science approach, NHESS serves a wide and diverse community of research scientists, practitioners, and decision makers concerned with detection of natural hazards, monitoring and modelling, vulnerability and risk assessment, and the design and implementation of mitigation and adaptation strategies, including economical, societal, and educational aspects.
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