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

The invention claimed is: 1. An optical effect layer comprising a radiation cured coating composition comprising non-spherical oblate magnetic or magnetizable pigment particles, said non-spherical oblate magnetic or magnetizable pigment particles being oriented according to an orientation pattern, wherein the orientation pattern is circularly symmetric around a center of rotation, wherein the non-spherical oblate magnetic or magnetizable pigment particles at at least two distinct locations x i along any selected diameter of the OEL have an average zenithal deflection angle φ′ at location x i and an average azimuth angle θ with respect to the selected diameter at the same location x i that satisfy the condition |φ′ sin (θ)|≥10°, and said optical effect layer providing an optical impression of at least one circularly moving spot or at least one comet-shaped spot rotating around said center of rotation upon tilting said OEL. 2. The optical effect layer according to claim 1 , wherein at least one part of the plurality of non-spherical oblate magnetic or magnetizable particles is constituted by non-spherical oblate optically variable magnetic or magnetizable pigment particles. 3. The optical effect layer according to claim 2 , 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. 4. The optical effect layer according to claim 1 , wherein the radiation cured coating composition is a UV-Vis radiation cured coating composition. 5. A security document or a decorative element or object comprising one or more optical effect layers (OELs) recited in claim 1 . 6. A printing apparatus for producing on a substrate the optical effect layer (OEL) recited in claim 1 , wherein the non-spherical oblate magnetic or magnetizable pigment particles are oriented with the magnetic field from at least one spinning magnetic assembly comprised in the apparatus, the spinning magnetic assembly having an axis of spinning, wherein the surface of the substrate provided with the OEL is substantially perpendicular to the axis of spinning of the magnet assembly and comprising a magnetic-field generating device comprising: a disc-shaped dipole magnet having its North-South magnetic axis substantially perpendicular to the axis of spinning, or a loop-shaped dipole magnet having its North-South magnetic axis substantially perpendicular to the axis of spinning, or a bar dipole magnet having its North-South magnetic axis substantially perpendicular to the axis of spinning and arranged on the axis of spinning wherein the disc-shaped dipole magnet, the loop-shaped dipole magnet or the bar dipole magnet of the magnetic-field generating device comprises at least one pair of indentations and/or at least one pair of voids and/or at least one pair of protrusions, wherein the indentations of the at least one pair, the voids of the at least one pair and/or the protrusions of the at least one pair are located: symmetrically about the axis of spinning, and asymmetrically with respect to a mirror plane of the disc-shaped dipole magnet, the loop-shaped dipole magnet or the bar dipole magnet, which is perpendicular to the North-South magnetic axis of the disc-shaped dipole magnet, the loop-shaped dipole magnet or the bar dipole magnet of the magnetic-field generating device and which contains the axis of spinning. 7. The apparatus according to claim 6 , wherein the magnetic-field generating device comprises the disc-shaped dipole magnet having its North-South magnetic axis substantially perpendicular to the axis of spinning or the loop-shaped having its North-South magnetic axis substantially perpendicular to the axis of spinning. 8. The apparatus according to claim 6 , wherein the indentations and/or voids and/or protrusions of the at least one pair are arranged in a symmetric configuration about the axis of spinning along a line, and wherein the projection of the magnetization axis of the magnetic-field generating device and the projection of the line where the indentations and/or the voids and/or the protrusions are arranged along the axis of spinning onto a plane perpendicular to the axis of spinning form an angle either in the range from about 5° to about 175° or in the range from about −5° to about −175°. 9. The apparatus according to claim 6 , wherein the magnetic-field generating device comprises at least one pair of indentations and/or at least one pair of voids. 10. The apparatus according to claim 6 , further comprising a rotating magnetic cylinder or a flatbed printing unit, wherein the at least one spinning magnetic assembly is comprised in the rotating magnetic cylinder or the flatbed printing unit. 11. A process for producing the optical effect layer (OEL) recited in claim 1 on a substrate, said process comprising the steps of: i) applying on a substrate surface a radiation curable coating composition comprising non-spherical oblate magnetic or magnetizable pigment particles, said radiation curable coating composition being in a first state; ii) exposing the radiation curable coating composition to a magnetic field of the printing apparatus, wherein the non-spherical oblate magnetic or magnetizable pigment particles are oriented with the magnetic field from at least one spinning magnetic assembly comprised in the apparatus, the spinning magnetic assembly having an axis of spinning, wherein the surface of the substrate provided with the OEL is substantially perpendicular to the axis of spinning of the magnet assembly and comprising a magnetic-field generating device comprising: a disc-shaped dipole magnet having its North-South magnetic axis substantially perpendicular to the axis of spinning, or a loop-shaped dipole magnet having its North-South magnetic axis substantially perpendicular to the axis of spinning, or a bar dipole magnet having its North-South magnetic axis substantially perpendicular to the axis of spinning and arranged on the axis of spinning wherein the disc-shaped dipole magnet, the loop-shaped dipole magnet or the bar dipole magnet of the magnetic-field generating device comprises at least one pair of indentations and/or at least one pair of voids and/or at least one pair of protrusions, wherein the indentations of the at least one pair, the voids of the at least one pair and/or the protrusions of the at least one pair are located: symmetrically about the axis of spinning, and asymmetrically with respect to a mirror plane of the disc-shaped dipole magnet, the loop-shaped dipole magnet or the bar dipole magnet, which is perpendicular to the North-South magnetic axis of the disc-shaped dipole magnet, the loop-shaped dipole magnet or the bar dipole magnet of the magnetic-field generating device and which contains the axis of spinning so as to orient at least one part of the non-spherical oblate magnetic or magnetizable pigment particles; and iii) at least partially curing the radiation curable coating composition of step ii) to a second state so as to fix the non-spherical oblate magnetic or magnetizable pigment particles in their adopted positions and orientations. 12. The process according to claim 11 , wherein step iii) is carried out by UV-Vis light radiation curing and wherein step iii) is carried out partially simultaneously with the step ii). 13. The optical effect layer according to claim 1 , wherein the non-spherical oblate magnetic or magnetizable pigment particles at at least two distinct locations xi along any selected diameter of the OEL have an average zenithal deflection angle φ′ at location xi an