Singular and regular gap solitons between three dispersion curves

Grimshaw, Roger; Malomed, Boris A.; Gottwald, Georg A.

doi:10.1103/physreve.65.066606

Cited by 11 publications

(4 citation statements)

References 28 publications

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“…Such scenarios for a similar, but di erent, equation have been studied in detail in Qian and Tang (2001). Another system which admits coexistence of regular solitary waves, peakons and cuspons has been studied in Grimshaw et al (2002).…”

Section: Reduction To An Odementioning

confidence: 99%

Camassa–Holm, Korteweg–de Vries-5 and other asymptotically equivalent equations for shallow water waves

2003

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We derive the Camassa-Holm equation (CH) as a shallow water wave equation with surface tension in an asymptotic expansion that extends one order beyond the Korteweg-de Vries equation (KdV). We show that CH is asymptotically equivalent to KdV5 (the ÿfth-order integrable equation in the KdV hierarchy) by using the nonlinear/non-local transformations introduced in Kodama (Phys. Lett. A 107 (1985a) 245; Phys. Lett. A 112 (1985b) 193; Phys. Lett. A 123 (1987) 276). We also classify its travelling wave solutions as a function of Bond number by using phase plane analysis. Finally, we discuss the experimental observability of the CH solutions.

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Section: Reduction To An Odementioning

confidence: 99%

Camassa–Holm, Korteweg–de Vries-5 and other asymptotically equivalent equations for shallow water waves

2003

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“…A system of three waves in the spatial domain, linearly coupled by a triple BG written on the surface of a planar nonlinear planar waveguide, was studied in Ref. [15]. This threewave system, which is formally tantamount to a model with "1.5'' cores in the temporal domain, gives rise to a rich family of solitons, which contains both regular gap solitons and stable "cuspons" and "peakons".…”

Section: Introductionmentioning

confidence: 99%

Solitons in a system of three linearly coupled fiber gratings

Gubeskys

Malomed

2004

The European Physical Journal D - Atomic, Molecular and Optical

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We introduce a model of three parallel-coupled nonlinear waveguiding cores equipped with Bragg gratings (BGs), which form an equilateral triangle. The most promising way to create multi-core BG configuration is to use inverted gratings, written on internal surfaces of relatively broad holes embedded in a photonic-crystalfiber matrix. The objective of the work is to investigate solitons and their stability in this system. New results are also obtained for the earlier investigated dual-core system. Families of symmetric and antisymmetric solutions are found analytically, extending beyond the spectral gap in both the dual-and tri-core systems. Moreover, these families persist in the case (strong coupling between the cores) when there is no gap in the system's linear spectrum. Three different types of asymmetric solitons are found (by means of the variational approach and numerical methods) in the tri-core system. They exist only inside the spectral gap, but asymmetric solitons with nonvanishing tails are found outside the gap as well. Stability of the solitons is explored by direct simulations, and, for symmetric solitons, in a more rigorous way too, by computation of eigenvalues for small perturbations. The symmetric solitons are stable up to points at which two types of asymmetric solitons bifurcate from them. Beyond the bifurcation, one type of the asymmetric solitons is stable, and the other is not. Then, they swap their stability. Asymmetric solitons of the third type are always unstable. When the symmetric solitons are unstable, their instability is oscillatory, and, in most cases, it transforms them into stable breathers. In both the dual-and tricore systems, the stability region of the symmetric solitons extends far beyond the gap, persisting in the case when the system has no gap at all. The whole stability region of antisymmetric solitons (a new type of solutions in the tri-core system) is located outside the gap. Thus, solitons in multi-core BGs can be observed experimentally in a much broader frequency band than in the single-core one, and in a wider parameter range than it could be expected. Asymmetric delocalized solitons, found outside the spectral gap, can be stable too.(1.1) (1.2)

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“…The investigation of compactons in a chain of dispersively nonlinear coupled oscillators was done by Pikovsky and Rosenau [17]. The relevance of compactons for applications in practical and theoretical studies should be found in the works [2,7,10,12,15,17,20] and citation therein. We quoted only several papers and obviously it is not complete.…”

Section: Introductionmentioning

confidence: 99%

Non-Classical Traveling Solutions in a Nonlinear Klein Gordon Model

et al. 2009

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A model with interparticle inharmonic interaction under the 4 external potential is studied. Making use of the special relation of relevant parameters, in the continuous limit, it was possible to obtain various non-classical soliton solutions, specifically, compact and peak-like solutions. The solutions undergo a jump on their first derivatives at some points of the space-time manifold. These analytic solutions were obtained by considering strong restrictions on their velocities and on the jump conditions. The energy concentrated in these solutions shows in several cases a discrete spectrum.

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Singular and regular gap solitons between three dispersion curves

Cited by 11 publications

References 28 publications

Camassa–Holm, Korteweg–de Vries-5 and other asymptotically equivalent equations for shallow water waves

Camassa–Holm, Korteweg–de Vries-5 and other asymptotically equivalent equations for shallow water waves

Solitons in a system of three linearly coupled fiber gratings

Non-Classical Traveling Solutions in a Nonlinear Klein Gordon Model

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