Magnetic assemblies and processes for producing optical effect layers comprising oriented non-spherical magnetic or magnetizable pigment particles

The invention claimed is: 1. A process for producing an optical effect layer (OEL) on a substrate, said process comprising the steps of: a) applying on a substrate surface a radiation curable coating composition comprising non-spherical magnetic or magnetizable pigment particles, said radiation curable coating composition being in a first state, b) exposing the radiation curable coating composition to a resulting magnetic field of a magnetic assembly comprising i) a loop-shaped magnetic-field generating device being either a single loop-shaped dipole magnet having a North-South magnetic axis substantially perpendicular to the substrate surface or a combination of two or more dipole magnets disposed in a loop-shaped arrangement and having a resulting North-South magnetic axis substantially perpendicular to the substrate surface, and ii) a magnetic-field generating device being either a single bar dipole magnet having a North-South magnetic axis substantially parallel to the substrate surface or a combination of two or more bar dipole magnets having a resulting North-South magnetic axis substantially parallel to the substrate surface, so as to orient at least a part of the non-spherical magnetic or magnetizable pigment particles, and c) at least partially curing the radiation curable coating composition of step b) to a second state so as to fix the non-spherical magnetic or magnetizable pigment particles in their adopted positions and orientations, wherein the loop-shaped magnetic-field generating device and the magnetic-field generating device are in direct contact, wherein the resulting magnetic field results from an interaction between the loop-shaped magnetic-field generating device and the magnetic-field generating device, and wherein the optical effect layer provides an optical impression of a loop-shaped body having a size that varies upon tilting the optical effect layer. 2. The process according to claim 1 , wherein step a) is carried out by a printing process. 3. The process according to claim 2 , the printing process selected from the group consisting of screen printing, rotogravure printing and flexography printing. 4. The process according to claim 1 , wherein at least a part of the plurality of non-spherical magnetic or magnetizable particles is constituted by non-spherical optically variable magnetic or magnetizable pigment particles. 5. The process according to claim 4 , wherein the optically variable magnetic or magnetizable pigments are selected from the group consisting of magnetic thin-film interference pigments, magnetic cholesteric liquid crystal pigments and mixtures thereof. 6. The process according to claim 1 , wherein c) is carried out partially simultaneously with the step b). 7. The process according to claim 1 , wherein the non-spherical magnetic or magnetizable particles are platelet-shaped pigment particles, and wherein said process further comprises a step of exposing the radiation curable coating composition to a dynamic magnetic field of a first magnetic-field-generating device so as to bi-axially orient at least a part of the platelet-shaped magnetic or magnetizable pigment particles, said step being carried out after step a) and before step b). 8. An optical effect layer (OEL) produced by the process recited in claim 1 . 9. A security document or a decorative element or object comprising one or more optical effect layer (OEL) recited in claim 8 . 10. The process according to claim 1 , wherein the loop-shaped magnetic-field generating device and the magnetic-field generating device are arranged one on top of the other. 11. The process according to claim 1 , wherein the loop-shaped magnetic-field generating device has a side extending in a radial direction of the loop-shape that is longer than a side extending in an axial direction of the loop-shape. 12. The process according to claim 11 , wherein an entirety of the side of the loop-shaped magnetic-field generating device extending in a radial direction of the loop shape is in direct contact with the magnetic-field generating device. 13. The process according to claim 1 , wherein the optical effect layer provides an optical impression of a loop-shaped body surrounding one central dark area, the loop-shaped body having a size that varies upon tilting the optical effect layer.