We present a systematic approach to supersymmetric holographic renormalization for a generic 5D \( \mathcal \) has been calculated explicitly, our results explain many of its observed properties. We explore the constrained dynamics of the theory, which are shown to describe the propagation of Yang-Mills instanton-particles between such points. The theory is shown to realise six-dimensional physics through the inclusion of singular points carrying non-zero instanton charge, which are encoded by instanton operators in the path integral. Finally, we study in detail an explicit $SU(1,3)$ model, conjectured to provide a Lagrangian description of the non-Abelian $(2,0)$ theory. We derive necessary conditions for a generic $SU(1,3)$ theory to admit such a six-dimensional interpretation, and also explore a degenerate limit of the construction that recovers the standard DLCQ picture. We derive and solve the corresponding Ward-Takahashi identities for correlators, and demonstrate how such models naturally describe any six-dimensional conformal field theory on a conformal compactification of Minkowski space. In Part II, we build from the ground up the theory of models in five dimensions with an exotic $SU(1,3)$ spacetime symmetry, including an inhomogeneous scaling. We explore this scaling technique and the resulting reduction to superconformal quantum mechanics for some examples, including several relevant to the branes of M-theory.
![curved space supersymmetry in 2d curved space supersymmetry in 2d](http://scottburns.us/wp-content/uploads/2014/12/sphere-and-plane-270x250.jpg)
The dynamics of the resulting theories are generically constrained to the moduli space of some BPS soliton. In Part I, we describe a scaling technique by which non-Lorentzian theories with an inhomogeneous scaling symmetry are obtained from Lorentzian supersymmetric models, while retaining all supersymmetry of the parent theory. A number of aspects of such models are explored, including the addition of supersymmetry, and their application in the construction of more conventional conformal field theories. The theme of this thesis is the study of field theories generically without Lorentz symmetry, but possessing an inhomogeneous scaling symmetry.