Dispersionless equation
Dispersionless (or quasi-classical) limits of integrable partial differential equations (PDE) arise in various problems of mathematics and physics and have been intensively studied in recent literature (see e.g. references below). They typically arise when considering slowly modulated long waves of an integrable dispersive PDE system.
Examples
[edit]Dispersionless KP equation
[edit]The dispersionless Kadomtsev–Petviashvili equation (dKPE), also known (up to an inessential linear change of variables) as the Khokhlov–Zabolotskaya equation, has the form
It arises from the commutation
of the following pair of 1-parameter families of vector fields
where is a spectral parameter. The dKPE is the -dispersionless limit of the celebrated Kadomtsev–Petviashvili equation, arising when considering long waves of that system. The dKPE, like many other (2+1)-dimensional integrable dispersionless systems, admits a (3+1)-dimensional generalization.[1]
The Benney moment equations
[edit]The dispersionless KP system is closely related to the Benney moment hierarchy, each of which is a dispersionless integrable system:
These arise as the consistency condition between
and the simplest two evolutions in the hierarchy are:
The dKP is recovered on setting
and eliminating the other moments, as well as identifying and .
If one sets , so that the countably many moments are expressed in terms of just two functions, the classical shallow water equations result:
These may also be derived from considering slowly modulated wave train solutions of the nonlinear Schrödinger equation. Such 'reductions', expressing the moments in terms of finitely many dependent variables, are described by the Gibbons-Tsarev equation.
Dispersionless Korteweg–de Vries equation
[edit]The dispersionless Korteweg–de Vries equation (dKdVE) reads as
It is the dispersionless or quasiclassical limit of the Korteweg–de Vries equation. It is satisfied by -independent solutions of the dKP system. It is also obtainable from the -flow of the Benney hierarchy on setting
Dispersionless Novikov–Veselov equation
[edit]The dispersionless Novikov-Veselov equation is most commonly written as the following equation for a real-valued function :
where the following standard notation of complex analysis is used: , . The function here is an auxiliary function, defined uniquely from up to a holomorphic summand.
Multidimensional integrable dispersionless systems
[edit]See [1] for systems with contact Lax pairs, and e.g.,[2][3] and references therein for other systems.
See also
[edit]- Integrable systems
- Nonlinear Schrödinger equation
- Nonlinear systems
- Davey–Stewartson equation
- Dispersive partial differential equation
- Kadomtsev–Petviashvili equation
- Korteweg–de Vries equation
References
[edit]Citations
[edit]- ^ a b Sergyeyev, A. (2018). "New integrable (3 + 1)-dimensional systems and contact geometry". Letters in Mathematical Physics. 108 (2): 359–376. arXiv:1401.2122. Bibcode:2018LMaPh.108..359S. doi:10.1007/s11005-017-1013-4. S2CID 119159629.
- ^ Calderbank, David M. J.; Kruglikov, Boris (2021). "Integrability via geometry: dispersionless differential equations in three and four dimensions". Communications in Mathematical Physics. 382 (3): 1811–1841. arXiv:1612.02753. doi:10.1007/s00220-020-03913-y. MR 4232780.
- ^ Kruglikov, Boris; Morozov, Oleg (2015). "Integrable Dispersionless PDEs in 4D, Their Symmetry Pseudogroups and Deformations". Letters in Mathematical Physics. 105 (12): 1703–1723. arXiv:1410.7104. Bibcode:2015LMaPh.105.1703K. doi:10.1007/s11005-015-0800-z. S2CID 119326497.
Bibliography
[edit]- Kodama Y., Gibbons J. "Integrability of the dispersionless KP hierarchy", Nonlinear World 1, (1990).
- Zakharov V.E. "Dispersionless limit of integrable systems in 2+1 dimensions", Singular Limits of Dispersive Waves, NATO ASI series, Volume 320, 165-174, (1994).
- Takasaki, Kanehisa; Takebe, Takashi (1995). "Integrable Hierarchies and Dispersionless Limit". Reviews in Mathematical Physics. 07 (5): 743–808. arXiv:hep-th/9405096. Bibcode:1995RvMaP...7..743T. doi:10.1142/S0129055X9500030X. S2CID 17351327.
- Konopelchenko, B. G. (2007). "Quasiclassical generalized Weierstrass representation and dispersionless DS equation". Journal of Physics A: Mathematical and Theoretical. 40 (46): F995–F1004. arXiv:0709.4148. doi:10.1088/1751-8113/40/46/F03. S2CID 18451590.
- Konopelchenko, B.G.; Moro, A. (2004). "Integrable Equations in Nonlinear Geometrical Optics". Studies in Applied Mathematics. 113 (4): 325–352. arXiv:nlin/0403051. Bibcode:2004nlin......3051K. doi:10.1111/j.0022-2526.2004.01536.x. S2CID 17611812.
- Dunajski, Maciej (2008). "An interpolating dispersionless integrable system". Journal of Physics A: Mathematical and Theoretical. 41 (31): 315202. arXiv:0804.1234. Bibcode:2008JPhA...41E5202D. doi:10.1088/1751-8113/41/31/315202. S2CID 15695718.
- Dunajski M. "Solitons, instantons and twistors", Oxford University Press, 2010.
External links
[edit]- Ishimori_system at the dispersive equations wiki
- Takebe T. "Lectures on Dispersionless Integrable Hierarchies", 2014