# C8.2 Stochastic Analysis and PDEs - Archived material for the year 2019-2020

## Primary tabs

Part A integration, B8.1 Martingales Through Measure, B8.2 Continuous Martingales and Stochastic Calculus and C8.1 Stochastic Differential Equations. B4.1 is useful but not essential.

16 lectures

### Assessment type:

- Written Examination

Stochastic analysis and partial differential equations are intricately connected. This is exemplified by the celebrated deep connections between Brownian motion and the classical heat equation, but this is only a very special case of a general phenomenon. We explore some of these connections, illustrating the benefits to both analysis and probability.

The student will have developed an understanding of the deep connections between concepts from probability theory, especially diffusion processes and their transition semigroups, and partial differential equations.

Feller processes and semigroups. Resolvents and generators. Hille-Yosida Theorem (without proof). Diffusions and elliptic operators, convergence and approximation. Stochastic differential equations and martingale problems. Dynkin's formula. Duality. Speed and scale for one dimensional diffusions. Green's functions as occupation densities. The Feynman-Kac formula. Semilinear equations and branching processes. Examples from genetics.

A full set of typed notes will be supplied.

Important references:

- O. Kallenberg.
*Foundations of Modern Probability*. Second Edition, Springer 2002. This comprehensive text covers essentially the entire course, and much more, but should be supplemented with other references in order to develop experience of more examples. - L.C.G Rogers & D. Williams.
*Diffusions, Markov Processes and Martingales*; Volume 1, Foundations and Volume 2, Itô calculus. Cambridge University Press, 1987 and 1994. These two volumes have a very different style to Kallenberg and complement it nicely. Again they cover much more material than this course.

*Please note that e-book versions of many books in the reading lists can be found on SOLO and ORLO.*

- S.N. Ethier & T.G. Kurtz.
*Markov Processes: characterization and convergence*. Wiley 1986. It is not recommended to try to sit down and read this book cover to cover, but it is a treasure trove of powerful theory and elegant examples. - S. Karlin & H.M. Taylor.
*A second course in stochastic processes*. Academic Press 1981. This classic text does not cover the material on semigroups and martingale problems that we shall develop, but it is a very accessible source of examples of diffusions and things one might calculate for them.

A fuller list of references will be included in the typed notes.