Power of Supersymmetry in D-particle Dynamics

Abstract

A new systematic method is developed to study to what extent the symmetry requirements alone, above all the invariance under 16 supersymmetries (SUSY), determine the completely off-shell effective action of a D-particle, i.e. without imposing any restrictions on its position rm(τ) and spin θα(τ). Our method consists of (i) writing down the proper closure relations for general SUSY transformations δε (which necessarily involves itself) together with the invariance condition δε=0 (ii) and solving this coupled system of functional differential equations for δε and simultaneously, modulo field redefinitions, in a consistent derivative expansion scheme. Our analysis is facilitated by a novel classification scheme introduced for the terms in . At order 2 and 4, although no assumption is made on the underlying theory, we reproduce the effective action previously obtained at the tree and the 1-loop level in Matrix theory respectively (modulo two constants), together with the quantum-corrected SUSY transformations which close properly. This constitutes a complete unambiguous proof of off-shell non-renormalization theorems.

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