Supergravity interacting with superbranes and spacetime Higgs effect in General Relativity

TL;DR

This paper reviews the supersymmetric Lagrangian approach to supergravity and superbrane interactions, emphasizing the gauge nature of brane coordinates and their role as Goldstone fields related to spacetime symmetry breaking, illustrating a spacetime Higgs effect.

Contribution

It introduces a gauge-theoretic perspective on supergravity-superbrane interactions, highlighting the Goldstone nature of brane coordinates and their connection to the spacetime Higgs mechanism in General Relativity.

Findings

Brane coordinate functions are pure gauge and act as Goldstone fields.

Superbranes do not carry local degrees of freedom in interacting systems.

The spacetime Higgs effect occurs in General Relativity with material sources.

Abstract

In this contribution we will review briefly the supersymmetric Lagrangian approach to the supergravity-superbrane interaction which was developed in collaboration with J. A. de Azcarraga, J.M. Izquierdo, J. Lukierski and J. M. Isidro. The main accent will be made on the pure gauge nature of the (super)brane coordinate functions in the presence of dynamical (super)gravity described by an action rather than as a fixed background. This pure gauge nature just reflects the fact that the coordinate functions are Goldstone fields corresponding to the spontaneously broken diffeomorphism gauge symmetry of the interacting system. Moreover, a brane does not carry any local degrees of freedom in such an interacting system. This fact related with fundamental properties of General Relativity (discussed already at 1916) can be treated as a peculiarity of the spacetime Higgs effect which occurs in General Relativity in the presence of material particles, strings and branes.