ENTROPY ON THE PATH SPACE AND APPLICATION TO SINGULAR DIFFUSIONS AND MEAN-FIELD MODELS
Résumé
In this paper we introduce a (partly) new approach for the study of McKean-
Vlasov equations, including singular interactions. This approach is based on the relative
entropy on the path space in the spirit of our previous works together with C. Léonard. It
is also used in a recent work of D. Lacker.
We show how it can be used to derive existence and uniqueness for some singular diffusions, in particular linear mean field stochastic particle systems and non linear SDE of McKean-Vlasov type, including Lp- Lq models, the 2D vortex model associated to the 2D Navier-Stokes equation, sub-Coulombic interactions models or the Patlak-Keller-Segel model.
We also show the convergence and propagation of chaos as the number of particles grows to infinity. This is obtained at the process level, not only at the Liouville equation level.
The paper thus contains new proofs and extensions of known results, as well as new results.
The main results are given at the end of the Introduction.
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