Seminar Daniel Mayerson

Daniel Mayerson
University of Amsterdam
Classifying Supersymmetric Solutions in 3D Maximal Supergravity

String theory has been known for quite a while to contain membrane-like objects called D-branes in addition to the fundamental strings the theory is named after. However, fairly recently, new types of membranes in string theory are being studied: the so-called "exotic branes" (among other names). These exotic branes have the interesting feature that their spacetime is multi-valued or non-geometric; this means that when you travel in a circle around the brane, the resulting spacetime looks different from that which you started out with! It is of considerable interest to study and classify the possible types of such exotic branes that can exist in string theory. To study them, we can work in a 3D theory (of maximal supergravity), where the exotic branes are just point particles. In this theory, we can at least classify the supersymmetric point particles, thereby gaining insight into what kind of supersymmetric exotic branes exist in string theory. This problem reduces to that of classifying nilpotent orbits associated with the U-duality group (E_8), for which various mathematical results are known. It can be shown that the only allowed supersymmetric configurations are 1/2, 1/4, 1/8, and 1/16 BPS, and their respective nilpotent orbits can be given explicitly. On the other hand, it turns out exceedingly difficult to translate this classification into a simple criterion for supersymmetry in terms of the non-Abelian (monodromy) charges of the objects.

Thursday, May 8, 2014 - 12:30