Processes for in-field hardening of optical effect layers produced by magnetic-field generating devices generating concave field lines

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 the substrate a coating composition comprising a plurality of magnetic or magnetizable pigment particles so as to form a coating layer, said coating layer being in a first state, b) b1) exposing the coating layer to a magnetic field of a magnetic-field-generating device, said magnetic-field-generating device being located on a side of the coating layer thereby orienting the plurality of magnetic or magnetizable pigment particles, and b2) simultaneously or partially simultaneously hardening through the substrate the coating layer to a second state so as to fix the magnetic or magnetizable pigment particles in their adopted positions and orientations, said hardening being performed by irradiation with a UV-Vis radiation source located on a side of the substrate, wherein the substrate is transparent to one or more wavelengths of an emission spectrum of irradiation source in the range of 200 nm to 500 nm, and wherein the plurality of magnetic or magnetizable pigment particles is oriented so as to follow a concave curvature when viewed from the side carrying the OEL. 2. The process according to claim 1 , wherein the applying step a) is a printing process selected from the group consisting of screen printing, rotogravure printing and flexography printing. 3. The process according to claim 1 , wherein at least a part of the plurality of magnetic or magnetizable pigment particles is constituted by magnetic thin-film interference pigments, magnetic cholesteric liquid crystal pigments, interference coated pigments including one or more magnetic materials and mixtures thereof. 4. The process according to claim 1 , further comprising a step c) of applying a second coating composition layer comprising a plurality of magnetic or magnetizable pigment particles so as to form a second coating layer, said coating composition being in a first state, a step d) of exposing the second coating layer in a first state to a magnetic field of a second magnetic-field-generating device thereby orienting the plurality of magnetic or magnetizable pigment particles in any pattern except a random orientation and step e) simultaneously, partially simultaneously or subsequently hardening by UV-Vis radiation the second coating layer to a second state so as to fix the magnetic or magnetizable pigment particles in their adopted positions and orientations. 5. The process according to claim 1 , further comprising the steps of i) applying a second coating composition layer comprising a plurality of magnetic or magnetizable pigment particles so as to form a second coating layer, said coating composition being in a first state; ii) of exposing the second coating layer in a first state to the magnetic field of a second magnetic-field-generating device thereby orienting the plurality of magnetic or magnetizable pigment particles in any pattern except a random orientation; and iii) simultaneously, partially simultaneously or subsequently hardening by UV-Vis radiation the second coating layer to a second state so as to fix the magnetic or magnetizable pigment particles in their adopted positions and orientations, wherein said steps i), ii), iii) are carried out before the steps a) and b). 6. The process according to claim 4 , wherein the step d) is carried out with the second magnetic-field-generating device thereby orienting the plurality of magnetic or magnetizable pigment particles so as to follow a convex curvature when viewed from the side carrying the coating layer. 7. A process for producing an optical effect layer (OEL) on a substrate, said OEL comprising a motif made of at least two adjacent patterns made of a single hardened layer, said process comprising the steps of: a) applying on the substrate a coating composition comprising a plurality of magnetic or magnetizable particles so as to form a coating layer, said coating layer being in a first state; b) b1) exposing one or more first substrate areas carrying the coating layer to the magnetic field of a first magnetic-field-generating device, said magnetic-field-generating device being located on a side of the coating layer thereby orienting the plurality of magnetic or magnetizable pigment particles so as to follow a concave curvature when viewed from the side carrying the coating layer, and b2) simultaneously or partially simultaneously hardening through the substrate the coating layer, said hardening being performed by irradiation with a UV-Vis irradiation source located on a side of the substrate, wherein said UV-Vis irradiation source is equipped with a photomask such that one or more second substrate areas carrying the coating layer are not exposed to UV-Vis irradiation; and c) exposing at least the one or more second substrate areas carrying the coating layer which are in a first state due to the presence of the photomask under step b2) to the magnetic field of a second magnetic-field-generating device thereby orienting the plurality of magnetic or magnetizable pigment particles so as to follow any orientation except a random orientation; and simultaneously, partially simultaneously or subsequently hardening by irradiation with a UV-Vis irradiation source at least the one or more second substrate areas carrying the coating layer to a second state so as to fix the magnetic or magnetizable pigment particles in their adopted positions and orientations, wherein the substrate under step a) is transparent to one or more wavelengths of an emission spectrum of the irradiation source in the range of 200 nm to 500 nm. 8. A process for producing an optical effect layer (OEL) on a substrate, said OEL comprising a motif made of at least two adjacent patterns made of a single hardened layer, said process comprising the steps of: a) applying on the substrate a coating composition comprising a plurality of magnetic or magnetizable particles so as to form a coating layer, said coating layer being in a first state; b) b1) exposing one or more first substrate areas carrying the coating layer to a magnetic field of a first magnetic-field-generating device thereby orienting the plurality of magnetic or magnetizable pigment particles so as to follow any orientation except a random orientation, and b2) simultaneously, partially simultaneously or subsequently hardening the coating layer as described herein, said hardening being performed by irradiation with a UV-Vis irradiation source equipped with a photomask such that one or more second substrate areas carrying the coating layer are not exposed to the UV-Vis irradiation; and c) exposing at least the one or more second substrate areas carrying the coating layer which are in a first state due to the presence of the photomask under step b2) to a magnetic field of a second magnetic-field-generating device, said magnetic-field-generating device being located on a side of the coating layer thereby orienting the plurality of magnetic or magnetizable pigment particles so as to follow a concave curvature when viewed from the side carrying the coating layer; and simultaneously or partially simultaneously hardening through the substrate at least the one or more second substrate areas carrying the coating layer, said hardening being performed by irradiation with a UV-Vis irradiation source located on a side of the substrate, wherein the substrate under step a) is transparent to one or more wavelengths of an emission spectrum of the irradiation source in the range of 200 nm to 500 nm. 9. The process according to claim 7 , wherein the step c) is carried out with a second magnetic-field-generating device thereby orienting the plurality of magnetic or mag