Towards a complete description of multiple Dp-brane systems: Multiple D0 Story

Abstract

In this thesis, we address the problem of constructing the complete supersymmetric description of systems of N nearly coincident Dirichlet p-branes (multiple Dp-brane or mDp). A particularly important result is a completely nonlinear action for the 10-dimensional dynamical system of nearly coincident multiple D0-branes (mD0) which is doubly supersymmetric, i.e. it is invariant under both spacetime (target superspace) supersymmetry and the worldline supersymmetry; the latter is a counterpart of the local fermionic -symmetry characteristic of a single D0-brane (Dirichlet superparticle). This problem is approached in flat superspace using the (spinor) moving frame formalism, which provides us with a geometric framework to the treatment of supersymmetric particles and extended objects (p-branes) in higher dimensions. Furthermore, we have initiated the quantization program aimed at development of a field theory of multiple D0-branes. This quantization in its complete form is expected to lead to a novel supersymmetric field theory formulated on a superspace extended by additional bosonic and fermionic matrix coordinates, whose development may offer significant insights into the deeper structure of String/M-theory.

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