Quasi-periodic solutions of (3+1) generalized BKP equation by using Riemann theta functions

Abstract From optics to hydrodynamics, shock and rogue waves are widespread. Although they appear as distinct phenomena, transitions between extreme waves are allowed. However, these have never been experimentally observed because control strategies are still missing. We introduce the new concept of topological control based on the one-to-one correspondence between the number of wave packet oscillating phases and the genus of toroidal surfaces associated with the nonlinear Schrödinger equation solutions through Riemann theta functions. We demonstrate the concept experimentally by reporting observations of supervised transitions between waves with different genera. Considering the box problem in a focusing photorefractive medium, we tailor the time-dependent nonlinearity and dispersion to explore each region in the state diagram of the nonlinear wave propagation. Our result is the first realization of topological control of nonlinear waves. This new technique casts light on shock and rogue waves generation and can be extended to other nonlinear phenomena.

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Riemann Theta Functions

Nonlinear Ocean Waves and the Inverse Scattering Transform - International Geophysics ◽

10.1016/s0074-6142(10)97008-3 ◽

2010 ◽

pp. 147-202

Author(s):

Alfred R. Osborne

Keyword(s):

Theta Functions ◽

Riemann Theta Functions

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Families of Rational and Semirational Solutions of the Partial Reverse Space-Time Nonlocal Mel′nikov Equation

Complexity ◽

10.1155/2020/2642654 ◽

2020 ◽

Vol 2020 ◽

pp. 1-18

Author(s):

Wei Liu ◽

Zhenyun Qin ◽

Kwok Wing Chow ◽

Senyue Lou

Keyword(s):

Scalar Field ◽

Periodic Solutions ◽

Theta Functions ◽

Rogue Waves ◽

Boussinesq System ◽

Present System ◽

Bilinear Method ◽

Nonlocal Operators ◽

Localized Solutions ◽

Dependent Variables

Exact periodic and localized solutions of a nonlocal Mel′nikov equation are derived by the Hirota bilinear method. Many conventional nonlocal operators involve integration over a spatial or temporal domain. However, the present class of nonlocal equations depends on properties at selected far field points which result in a potential satisfying parity time symmetry. The present system of nonlocal partial differential equations consists of two dependent variables in two spatial dimensions and time, where the dependent variables physically represent a wave packet and an auxiliary scalar field. The periodic solutions may take the forms of breathers (pulsating modes) and line solitons. The localized solutions can include propagating lumps and rogue waves. These nonsingular solutions are obtained by appropriate choice of parameters in the Hirota expansion. Doubly periodic solutions are also computed with elliptic and theta functions. In sharp contrast with the local Mel′nikov equation, the auxiliary scalar field in the present set of solutions can attain complex values. Through a coordinate transformation, the governing equation can reduce to the Schrödinger–Boussinesq system.

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Determinantal representations of elliptic curves via Weierstrass elliptic functions

Electronic Journal of Linear Algebra ◽

10.13001/1081-3810.3609 ◽

2018 ◽

Vol 34 ◽

pp. 125-136 ◽

Cited By ~ 1

Author(s):

Mao-Ting Chien ◽

Hiroshi Nakazato

Keyword(s):

Elliptic Curves ◽

Algebraic Curve ◽

Theta Functions ◽

Elliptic Functions ◽

Determinantal Representation ◽

Ternary Form ◽

Riemann Theta Functions

Helton and Vinnikov proved that every hyperbolic ternary form admits a symmetric derminantal representation via Riemann theta functions. In the case the algebraic curve of the hyperbolic ternary form is elliptic, the determinantal representation of the ternary form is formulated by using Weierstrass $\wp$-functions in place of Riemann theta functions. An example of this approach is given.

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Singular connections and Riemann theta functions

Topology and its Applications ◽

10.1016/s0166-8641(97)00182-x ◽

1998 ◽

Vol 90 (1-3) ◽

pp. 149-163

Author(s):

Li Weiping

Keyword(s):

Theta Functions ◽

Riemann Theta Functions

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RIEMANN THETA FUNCTIONS SOLUTIONS WITH RATIONAL CHARACTERISTICS FOR (2+1)-DIMENSIONAL SINH-GORDON EQUATION

Modern Physics Letters B ◽

10.1142/s0217984910022639 ◽

2010 ◽

Vol 24 (06) ◽

pp. 575-584

Author(s):

YANG FENG ◽

HONG-QING ZHANG

Keyword(s):

Gordon Equation ◽

Theta Functions ◽

Periodic Wave ◽

Bilinear Method ◽

Periodic Wave Solutions ◽

Wave Solutions ◽

Wave Numbers ◽

Riemann Theta Functions ◽

The Waves ◽

Hirota Bilinear

In this letter, we use the Riemann theta functions with rational characteristics and the Hirota bilinear method to construct quasi-periodic wave solutions for (2+1)-dimensional sinh-Gordon equation. This method not only conveniently obtains quasi-periodic solutions of nonlinear equations, but also directly gets the explicit expressions of frequencies, wave numbers, phase and amplitudes for the waves.

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