COOKIES: By using this website you agree that we can place Google Analytics Cookies on your device for performance monitoring. |

University of Cambridge > Talks.cam > Isaac Newton Institute Seminar Series > Exact formulas on Gaussian multiplicative chaos and Liouville theory

## Exact formulas on Gaussian multiplicative chaos and Liouville theoryAdd to your list(s) Download to your calendar using vCal - Guillaume Remy (CNRS - Ecole Normale Superieure Paris)
- Friday 20 July 2018, 09:10-09:55
- Seminar Room 1, Newton Institute.
If you have a question about this talk, please contact INI IT. RGMW06 - RGM follow up We will present recent progress that has been made to prove exact formulas on the Gaussian multiplicative chaos (GMC) measures. We will give the law of the total mass of the GMC measure on the unit circle (the Fyodorov-Bouchaud formula) and on the unit interval (in collaboration with T. Zhu). The techniques of proof come from the link between GMC and Liouville conformal field theory studied by David-Kupiainen-Rhodes-Vargas. If time permits we will also discuss the connections with the quantum sphere and the quantum disk of the Duplantier-Miller-Sheffield approach to Liouville quantum gravity. This talk is part of the Isaac Newton Institute Seminar Series series. ## This talk is included in these lists:- All CMS events
- Featured lists
- INI info aggregator
- Isaac Newton Institute Seminar Series
- School of Physical Sciences
- Seminar Room 1, Newton Institute
- bld31
Note that ex-directory lists are not shown. |
## Other listsCCIMI Short course: First-order methods for large scale optimisation problems Type the title of a new list here The Leverhulme Centre for Human Evolutionary Studies Seminars## Other talksGeometric descriptions of the Loewner energy Modelling avian influenza outbreak risk in the Australian chicken industry Making the tiniest machines HOME BROADBAND AND THE INTERNET - STAYING AHEAD OF THE CURVE Added by David Blake BSU Seminar: "Using Gaussian processes to model branching dynamics from single-cell data" (provisional) Using quantum mechanics to detect Stonehenge |