Constraining gravitational interactions in the M theory effective action

Abstract

We consider purely gravitational interactions of the type D6n R4 in the effective action of M theory which are related to the type IIA interactions of the form e2nφA D6n R4 where φA is the type IIA dilaton. The coefficients of the M theory interactions are determined by the strongly coupled type IIA theory. Given the nature of the dilaton dependence, it is plausible that for low values of n, the coefficient has a similar structure as the genus (n+1) string amplitude of the type IIA D6n R4 interaction, namely the transcendental nature. Assuming this, and focussing on the even--even spin structure part of the type IIA string amplitude, this coefficient is given by the type IIB genus (n+1) amplitude, which we constrain using supersymmetry, S--duality and maximal supergravity. The source terms of the Poisson equations satisfied by the S--duality invariant IIB couplings play a central role in the analysis. This procedure yields partial contributions to several multi--loop type IIB string amplitudes, from which we extract the transcendental nature of the corresponding M theory couplings. For n ≤ 2, all possible source terms involve only BPS couplings. While the R4 and D6 R4 M theory couplings agree with known results, the coefficient of the D12 R4 interaction takes the form ζ (2)3 (1+2 ζ (3)). We also analyze the D18 R4 and D24 R4 interactions, and show that their coefficients have at least the terms ζ (2)4 (1 +2ζ (3) +3ζ (5)) and ζ (2)5 (1 +2ζ (3) +3ζ (5) + 4ζ (3)2 + 5ζ (7) +6ζ (3) ζ (5) +7 ζ (3)3) respectively. The various undetermined constants have vanishing transcendentality.