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Indexed by:期刊论文
Date of Publication:2018-05-07
Journal:PHYSICAL REVIEW E
Included Journals:PubMed、SCIE
Volume:97
Issue:5
Page Number:053102
ISSN No.:2470-0045
Abstract:A series of laboratory experiments were performed to study the evolution of Peregrine breather (PB) in a wave flume in finite depth, and wave trains were initially generated in a region of quiescent water and then propagated into an adverse current region for which the current velocity strength gradually increased from zero to an approximately stable value. The PB is often considered as a prototype of oceanic freak waves that can focus wave energy into a single wave packet. In the experiment, the cases were selected with the relative water depths k(0)h (k(0) is the wave number in quiescent water and h is the water depth) varying from 3.11 through 8.17, and the initial wave steepness k(0)a(0) (a(0) is the background wave amplitude) ranges between 0.065 and 0.120. The experimental results show the persistence of the breather evolution dynamics even in the presence of strong opposing currents. We have shown that the characteristic spectrum of the PB persists even on strong currents, thus making it a viable characteristic for prediction of freak waves. It was also found that the adverse currents tend to shift the focusing point upstream compared to the cases without currents. Furthermore, it was found that uniform-depth adverse currents can reduce the breather extension in time domain.