Five-Dimensional Non-Lorentzian Conformal Field Theories and their Relation to Six-Dimensions

Abstract

We study correlation functions in five-dimensional non-Lorentzian theories with an SU(1,3) conformal symmetry. Examples of such theories have recently been obtained as -deformed Yang-Mills Lagrangians arising from a null reduction of six-dimensional superconformal field theories on a conformally compactified Minkowski space. The correlators exhibit a rich structure with many novel properties compared to conventional correlators in Lorentzian conformal field theories. Moreover, identifying the instanton number with the Fourier mode number of the dimensional reduction offers a hope to formulate six-dimensional conformal field theories in terms of five-dimensional Lagrangian theories. To this end we show that the Fourier decompositions of six-dimensional correlation functions solve the Ward identities of the the SU(1,3) symmetry, although more general solutions are possible. Conversely we illustrate how one can reconstruct six-dimensional correlation functions from those of a five-dimensional theory, and do so explicitly at 2- and 3-points. We also show that, in a suitable decompactification limit 0, the correlation functions become those of the DLCQ description.