Speaker: |
Prarit Agarwal (Seoul National University) |
Title: |
On dimensional reduction of 4d N=1 Lagrangians for Argyres-Douglas theories |
Date (JST): |
Tue, Oct 23, 2018, 13:15 - 14:30 |
Place: |
Seminar Room A |
Related File: |
2174.pdf
|
Abstract: |
Recently, it was found that certain 4d N=1 Lagrangians experience supersymmetry enhancement at their IR fixed point, thereby giving a Lagrangian description for a plethora of Argyres-Douglas theories. A generic feature of these Lagrangians is that a number of gauge invariant operators decouple (as free fields) along the RG-flow. These decoupled operators can be naturally taken into account from the beginning itself by introducing additional gauge singlets (sometimes called ``flipping fields'') that couple to the decoupled operators via appropriate superpotential terms. It has also been checked that upon dimensionally reducing to 3d, the (A_1,A_{2n-1}) type Lagrangians only produce the expected behavior when flipping fields are included in the Lagrangian. In this paper we further investigate the role of flipping fields and find an example where the expected necessity of including the flipping fields in the dimensionally reduced Lagrangians seems to get violated. In the process we find two new dual Lagrangians for the so called 3d T[SU(2)] theory. |