Quiver gauge theories and Kac-Moody Lie algebras

Structures in Enumerative Geometry March 19, 2018 - March 23, 2018

March 20, 2018 (09:30 AM PDT - 10:30 AM PDT)

Speaker(s): Hiraku Nakajima (Kavli Institute for the Physics and Mathematics of the Universe )
Location: SLMath: Eisenbud Auditorium

Primary Mathematics Subject Classification No Primary AMS MSC

Secondary Mathematics Subject Classification No Secondary AMS MSC

Video

5-Nakajima

Abstract

Quiver gauge theories give two types of algebraic symplectic varieties, which are called quiver varieties and Coulomb branches respectively. The first ones were introduced by the speaker in 1994, and their homology groups are representations of Kac–Moody Lie algebras. The second ones were introduced by the speaker and Braverman, Finkelberg in 2016. The two types of varieties are very different (e.g., dimensions are different), but are expected to be related in rather mysterious ways. As an example of mysterious links, I would like to explain a conjectural realization of Kac–Moody Lie algebra representations on homology groups of Coulomb branches, which the speaker proves in affine type A. It nicely matches with geometric Satake correspondence for usual finite dimensional complex simple groups and loop groups

Supplements

No Notes/Supplements Uploaded

Video/Audio Files

5-Nakajima

H.264 Video	5-Nakajima.mp4 427 MB video/mp4 rtsp://videos.msri.org/data/000/030/968/original/5-Nakajima.mp4	Download

Troubles with video?

Please report video problems to itsupport@slmath.org.

See more of our Streaming videos on our main VMath Videos page.