… to develop the conformal bootstrap program for N = 4 superconformal field theories (SCFTs) …
equal to 3=4 in any interacting N = 4 SCFT. We apply numerical bootstrap methods to derive …

… apply to 4d N = 4 superconformal theories with a boundary, but also to … more systems that
have the same symmetry algebra: 4d N = 4 superconformal theories with a line defect, 3d N = 4 …

… There are, however, two features of our results that are suggestive of a more specific
interpretation. The first is the behavior of the bounds for large values of the central charge (see Figs. …

… of the bootstrap program. In subsequent sections we will provide a more detailed account of
the specific crossing symmetry problem we are studying, culminating in a bootstrap equation …

… to obtain more information on the spectrum of the currently known theories. In this paper
we take the superconformal bootstrap approach to address these questions, and tackle N = 3 …

… As we consider correlators involving more and more external operators, the dimension of
the parameter space increases rapidly. Exploring such a high dimensional space is a major …

… Here we however show that OPE relations are much more powerful, therefore are essential
in bootstrapping N=1 SCFTs. Suppose O+ and O− are from the same superconformal …

… easily in particular realizations of the 4-d N = 4 theory. In 3-d, there is no Weyl anomaly, so
in order to connect our bootstrap study to more conventional descriptions in terms of BLG and/…

… We begin by discussing general constraints coming from N = 4 superconformal invariance,
including the expansion … See appendix C for more details on our numerical implementation. …

… of SU(4), such as the Konishi operator. The aim of this paper is to study the consistency
of more general four-point functions in four-dimensional N = 4 SCFT. More precisely we will …