Water Waves and Light: Two Unlikely Partners

We study a generic model governing optical beam propagation in media featuring a nonlocal nonlinear response, namely a two-dimensional defocusing nonlocal nonlinear Schrödinger (NLS) model. Using a framework of multiscale expansions, the NLS model is reduced first to a bidirectional model, namely a Boussinesq or a Benney-Luke-type equation, and then to the unidirectional Kadomtsev-Petviashvili (KP) equation – both in Cartesian and cylindrical geometry. All the above models arise in the description of shallow water waves, and their solutions are used for the construction of relevant soliton solutions of the nonlocal NLS. Thus, the connection between water wave and nonlinear optics models suggests that patterns of water may indeed exist in light. We show that the NLS model supports intricate patterns that emerge from interactions between soliton stripes, as well as lump and ring solitons, similarly to the situation occurring in shallow water.

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New multi-soliton solutions of Whitham-Broer-Kaup shallow-water-wave equations

Thermal Science ◽

10.2298/tsci17s1137z ◽

2017 ◽

Vol 21 (suppl. 1) ◽

pp. 137-144 ◽

Cited By ~ 2

Author(s):

Sheng Zhang ◽

Mingying Liu ◽

Bo Xu

Keyword(s):

Shallow Water ◽

Water Waves ◽

Water Wave ◽

Wave Equations ◽

Soliton Solutions ◽

Bilinear Forms ◽

Shallow Water Waves ◽

Bilinear Method ◽

Shallow Water Wave ◽

Shallow Water Wave Equations

In this paper, new and more general Whitham-Broer-Kaup equations which can describe the propagation of shallow-water waves are exactly solved in the framework of Hirota?s bilinear method and new multi-soliton solutions are obtained. To be specific, the Whitham-Broer-Kaup equations are first reduced into Ablowitz- Kaup-Newell-Segur equations. With the help of this equations, bilinear forms of the Whitham-Broer-Kaup equations are then derived. Based on the derived bilinear forms, new one-soliton solutions, two-soliton solutions, three-soliton solutions, and the uniform formulae of n-soliton solutions are finally obtained. It is shown that adopting the bilinear forms without loss of generality play a key role in obtaining these new multi-soliton solutions.

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X-type Soliton, Resonance Y-type Soliton and Hybrid Solutions of a (2+1)-dimensional Hirota-Satsuma-Ito System for the Shallow Water Waves

10.21203/rs.3.rs-751414/v1 ◽

2021 ◽

Author(s):

Yuan Shen ◽

Bo Tian ◽

Tian-Yu Zhou ◽

Xiao-Tian Gao

Keyword(s):

Shallow Water ◽

Symbolic Computation ◽

Water Waves ◽

Water Wave ◽

Soliton Solutions ◽

Hirota Method ◽

Shallow Water Waves ◽

Soliton Resonance ◽

Hybrid Solutions

Abstract Water waves are observed in the rivers, lakes, oceans, etc. Under investigation in this paper is a (2+1)-dimensional Hirota-Satsuma-Ito system arising in the shallow water waves. Via the Hirota method and symbolic computation, we derive some X-type and resonance Y-type soliton solutions. We also work out some hybrid solutions consisting of the resonance Y-type solitons, solitons, breathers and lumps. Graphics we present reveal that the hybrid solutions consisting of the resonance Y-type solitons and solitons/breathers/lumps describe the interactions between the resonance Y-type solitons and solitons/breathers/lumps, respectively. The obtained results rely on the water-wave coefficient in that system.

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