The idea of remote magnetic guiding is developed from the underlying physics of a concept that allows for bijective force generation over the inner volume of magnet systems. This concept can equally be implemented by electro- or permanent magnets. Here, permanent magnets are in the focus because they offer many advantages. The equations of magnetic fields and forces as well as velocities are derived in detail and physical limits are discussed. The special hydrodynamics of nanoparticle dispersions under these circumstances is reviewed and related to technical constraints. The possibility of 3D guiding and magnetic imaging techniques are discussed. Finally, the first results in guiding macroscopic objects, superparamagnetic nanoparticles, and cells with incorporated nanoparticles are presented. The constructed magnet systems allow for orientation, movement, and acceleration of magnetic objects and, in principle, can be scaled up to human size.
Keywords: Halbach magnets; MPI; MRI; SPIO; cells; dipole; endoscopic capsules; ferrofluid; ferromagnetic; magnetic drug targeting (MDT); magnetic force; magnetic particle imaging; magnetic resonance imaging; micro-robots; nanoparticle; quadrupole; steering; superparamagnetic.