Magnetic field mapping of inaccessible regions using physics-informed neural networks.

A difficult problem concerns the determination of magnetic field components within an experimentally inaccessible region when direct field measurements are not feasible. In this paper, we propose a new method of accessing magnetic field components using non-disruptive magnetic field measurements on a surface enclosing the experimental region. Magnetic field components in the experimental region are predicted by solving a set of partial differential equations (Ampere's law and Gauss' law for magnetism) numerically with the aid of physics-informed neural networks (PINNs).