Vector field effective action in the open superstring theory
Abstract
Using a path integral technique we find a closed expression (to all orders in α') for the abelian, constant field strenght limit of the (tree) effective action for the massless vector field in the open superstring theory. The result is a modification of the Born-Infeld action found in the Bose string theory case. One-loop correction to the effective action is computed and shown to be finite if the gauge group is SO(32). It is demonstrated how the on-shell superstring scattering amplitudes can be calculated in the path-integral approach. We determine the leading (O( α') and O( α' 2)) terms in the full non-abelian effective action starting from the known results for the 3-point and 4-point amplitudes. We find that because of the equivalence theorem the coefficients of some of the invariant structures in the effective lagrangian cannot be fixed from the S-matrix. In the path integral approach this ambiguity manifests itself as a 2d renormalization scheme (and Weyl gauge choice) ambiguity. We also discuss the leading terms in the gravitational effective actions in the closed (super) string theories and point out that whether or not the R2 terms form the "Gauss-Bonnet" combination depends on choice of a renormalization (massless exchange subtraction) scheme.
- Publication:
-
Nuclear Physics B
- Pub Date:
- October 1986
- DOI:
- 10.1016/0550-3213(86)90303-2
- Bibcode:
- 1986NuPhB.276..391T