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Kundu-Eckhaus Equation

A generalization of nonlinear Schroedinger equation with additional quintic nonlinerity and a nonlinear dispersive term was proposed in ^[1] in the form

${\displaystyle \psi _{t}+\psi _{xx}-2\beta |\psi |^{2}q+\delta ^{2}|\psi |^{4}\psi \pm 2i\delta (|\psi |^{2})_{x}\psi =0,......(3)}$

which may be obtained from the Kundu Equation (2), when restricted to <math>\alpha =0<math>. The same equation, limited further to the particular case <math>\beta =0,<math> was introduced later as Eckhaus equation, following which equation (3) is presently known as the Kundu-Ekchaus eqution. The Kundu-Ekchaus equation can be reduced to the nonlinear Schroedinger equation through a nonlinear transformation of the field and known therefore to be gauge equivalent integrable systems, since they are equivalent under the gauge transformation.

Properties and Applications

the Kundu-Ekchaus equation is asociated with a Lax pair, higher conserved quantity, exact soliton solution, rogue wave solution etc. Over the years various aspects of this equation, its generalizations and link with other equations have been studied. In particular, relationship of Kundu-Ekchaus equation with the Johnson's hydrodynamic equation near criticality is established^[2] , its discretizations ^[3] , reduction via [[Lie symmetry]] ^[4] , complex structure via Bernoulli subequation ^[5] , bright and dark [[soliton solutions] via Baecklund transfomation ^[6] and Darbaux transformation^[7] with the associated rogue wave solutions ^[8] , <ref name={{Ohta|2012}} > Ohta, Y.; Yang, J. (2012), "General higher order rogue waves and their dynamics in the NLS equation", Proc. Royal Soc. Lond. A, 468: 1716

1. Cite error: The named reference Template:Kundu was invoked but never defined (see the help page).
2. Kundu, A. (1987), "Exact solutions in higher order nonlinear equations gauge transformation", Physica D, 25: 399–406 {{citation}}: line feed character in |title= at position 54 (help)
3. Levi, D.; Scimiterna, C. (2009), "The Kundu–Eckhaus equation and its discretizations", J. Phys. A
4. Toomanian; Asadi (2013), "Reductions for Kundu-Eckhaus equation via Lie symmetry analysis", Math. Sciences, 7: 50
5. Beokonus, H. M.; Bulut, Q. H. (2015), "On the complex structure of Kundu-Eckhaus equation via Bernoulli subequation fungtion method", Waves in Random and Complex Media, 28 Aug. {{citation}}: line feed character in |title= at position 79 (help)
6. Wang,, H. P.; al., et. (2015), "Bright and Dark solitons and Baecklund transfomation for the Kundu–Eckhaus equation", Appl. Math. Comp., 251: 233
7. Qui, D.; al., et. (2015), "The Darbaux transformation and the Kundu–Eckhaus equation", Proc. Royal Soc. Lond. A, 451: 20150236 {{citation}}: line feed character in |title= at position 4 (help)
8. Wang, Xin; al., et. (2014), "Higher-order rogue wave solutions of the Kundu–Eckhaus equation", Phys. Scr., 89: 095210