Seminar talk, 16 October 2019: Difference between revisions
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| speaker = Boris Kruglikov | | speaker = Boris Kruglikov | ||
| title = Integrability of dispersionless differential equations in three and four dimensions: various approaches | | title = Integrability of dispersionless differential equations in three and four dimensions: various approaches | ||
| abstract = | | abstract = First, I will tell on our work with David Calderbank in which we show that for general equations with quadratic characteristic manifold the existence of a Lax pair in vector fields is equivalent to the twistor approach. This explains why the maximal dimension for non-degenerate integrable equations may be 4. I'll shortly discuss what happens in higher dimensions. | ||
Then, I will tell on a class of equations related to submanifolds of Grassmann g | |||
eometry, show the classification of integrable systems in this class, and discuss the difference between dimensions 3 and 4 in this context. Here the integrability is understood in the sense of the hydrodynamic reductions. This is a joint work with Boris Doubrov, Eugene Ferapontov, and Vladimir Novikov. | |||
| video = | | video = | ||
| slides = | | slides = | ||
Revision as of 21:34, 17 September 2019
Speaker: Boris Kruglikov
Title: Integrability of dispersionless differential equations in three and four dimensions: various approaches
Abstract:
First, I will tell on our work with David Calderbank in which we show that for general equations with quadratic characteristic manifold the existence of a Lax pair in vector fields is equivalent to the twistor approach. This explains why the maximal dimension for non-degenerate integrable equations may be 4. I'll shortly discuss what happens in higher dimensions.
Then, I will tell on a class of equations related to submanifolds of Grassmann g
eometry, show the classification of integrable systems in this class, and discuss the difference between dimensions 3 and 4 in this context. Here the integrability is understood in the sense of the hydrodynamic reductions. This is a joint work with Boris Doubrov, Eugene Ferapontov, and Vladimir Novikov.