On anomaly free 4d N=4 and 6d (2,0) conformal supergravities and UV finiteness of Poincar\'e supergravities

Abstract

We review the structure of superconformal anomalies in 4d N=4 conformal supergravity (CSG) coupled to a number N v of N=4 vector multiplets and 6d (2,0) CSG coupled to N_ T of (2,0) tensor multiplets. Anomalies cancel if N v=4 and N_ T=26 respectively. If the CSG part of the action is dropped and N v=6+ n v, the first theory is classically equivalent to the 4d N=4 Poincar\'e supergravity (PSG) coupled to n v vector multiplets, while the second one with N_ T=5+ n_ T is classically equivalent to the 6d (2,0) PSG coupled to n T tensor multiplets. We argue that these facts imply that divergences in the 4d PSG with n v vectors should be proportional to n v+2 and similarly in the 6d PSG with n_ T tensors to n_ T-21. These predictions appear to be consistent with known results of explicit scattering amplitude computations in these 4d and 6d PSG theories.