D-instantons and Dualities in String Theory

Abstract: This introductory part of the author's PhD compilation thesis discusses non-perturbative aspects of string theory, with focus on D-instantons which play key roles in the context of string phenomenology and dualities. By translating ideas from ordinary instanton calculus in field theory, D-instanton calculus is formulated and applied to supersymmetric gauge theories realized as world volume theories of spacefilling D-branes in non-trivial backgrounds. We show that, for configurations in which certain fermionic D-instanton zero modes are either lifted or projected out, new couplings, which may be forbidden at the perturbative level, are generated in the effective action, even though their origin does not admit an obvious interpretation in terms of ordinary field theory. Such couplings are of great relevance for semi-realistic MSSM/GUT models since they can correspond to Yukawa couplings, Majorana mass terms for right-handed neutrinos or Polonyi terms, relevant for supersymmetry breaking. In the last part, we make use of various string dualities in order to compute multi-instanton corrections which are otherwise technically difficult to obtain from explicit D-instanton calculations. We compute one-loop diagrams with BPS particles in type IIA string theory configurations, involving spacefilling D-branes and orientifolds, and obtain exact quantum corrections in the dual type IIB picture, including infinite series of D-instanton contributions. By lifting the one-loop calculations to the M-theory picture, we obtain a geometric understanding of the non-perturbative sector of a wide range of gauge theories and elucidate the underlying symmetries of the effective action.