Ward's conjecture

In mathematics, Ward's conjecture is the conjecture made by Ward (1985, p. 451) that "many (and perhaps all?) of the ordinary and partial differential equations that are regarded as being integrable or solvable may be obtained from the self-dual gauge field equations (or its generalizations) by reduction".

Examples

Ablowitz, Chakravarty, and Halburd (2003) explain how a variety of completely integrable equations such as the Korteweg-de Vries equation or KdV equation, the Kadomtsev–Petviashvili equation or KP equation, the nonlinear Schrödinger equation, the sine-Gordon equation, the Ernst equation and the Painlevé equations all arise as reductions or other simplifications of the self-dual Yang-Mills equation

${\displaystyle F=\star F}$

where ${\displaystyle F}$ is the curvature of a connection on an oriented 4-dimensional pseudo-Riemannian metric, and ${\displaystyle \star }$ is the Hodge star operator.

They also obtain the equations of an integrable system known as the Euler–Arnold–Manakov top, a generalization of the Euler top, and they state that the Kowalevsaya top is also a reduction of the self-dual Yang-Mills equations.

Penrose-Ward transform

Via the Penrose-Ward transform these solutions give the holomorphic vector bundles often seen in the context of algebraic integrable systems.

References

• Ablowitz, M. J.; Chakravarty, S.; R. G., Halburd (2003), "Integrable systems and reductions of the self-dual Yang–Mills equations", Journal of Mathematical Physics, 44: 3147–3173, Bibcode:2003JMP....44.3147A, doi:10.1063/1.1586967 http://www.ucl.ac.uk/~ucahrha/Publications/sdym-03.pdf
• Ward, R. S. (1985), "Integrable and solvable systems, and relations among them", Philosophical Transactions of the Royal Society of London. Series A. Mathematical and Physical Sciences, 315 (1533): 451–457, Bibcode:1985RSPTA.315..451W, doi:10.1098/rsta.1985.0051, ISSN 0080-4614, MR 0836745
• Mason, L. J.; Woodhouse, N. M. J. (1996), Integrability, Self-duality, and Twistor Theory, Clarendon