Stringy Newton Gravity with H-flux

Abstract

A Symmetry Principle has been shown to augment unambiguously the Einstein Field Equations, promoting the whole closed-string massless NS-NS sector to stringy graviton fields. Here we consider its weak field approximation, take a non-relativistic limit, and derive the stringy augmentation of Newton Gravity: \[ arraylll ∇2=4π G +H·H\,, &∇·H=0\,, & ∇×H=4π G\, K\,. array \] Not only the mass density but also the current density K is intrinsic to matter. Sourcing H which is of NS-NS H-flux origin, K is nontrivial if the matter is `stringy'. H contributes quadratically to the Newton potential, but otherwise is decoupled from the point particle dynamics, i.e. x=-∇. We define `stringization' analogous to magnetization and discuss regular as well as monopole-like singular solutions.