Security element with optically variable element

The invention claimed is: 1. A security element comprising at least one multi-layer composition, which composition is capable of interference and consists of at least one reflecting layer, at least one partially transmitting layer and at least one dielectric layer arranged between the reflecting layer and the partially transmitting layer, wherein the at least one reflecting layer comprises in a first region of the security element a multitude of gaps and the at least one partially transmitting layer comprises in a second region of the security element at least one gap in form of an alphanumeric character, a drawing or a pattern, or a multitude of gaps, which result in their entirety in an alphanumeric character, a drawing or a pattern, and the second region is arranged at least partially within the first region when the second region and the first region of the security element are viewed in vertical cross section and the total area of the part of the second region which is at least partially arranged within the first region is smaller than the total area of the first region and the security element, when viewed from the partially transmitting layer, displays a different appearance in top view than when viewed in transmission and the multitude of gaps in the reflecting layer and the partially transmitting layer are arranged stochastic or in a grid and the portion of the total area of the multitude of gaps in the reflecting layer is 10% to 40% with respect to the total area of the reflecting layer and the portion of the total area of the gaps in the partially transmitting layer is 10% to 100% with respect to the total area of the region of the partially transmitting layer, in which an appearance is visible in top view; wherein the at least one partially transmitting layer comprises a material that is partially transmitting of light. 2. The security element according to claim 1 , characterized in that the gaps in the at least one reflecting layer and the gaps in the at least one partially transmitting layer are each independently configured either circular or line shaped. 3. The security element according to claim 1 , characterized in that the gaps in the at least one reflecting layer and the gaps in the at least one partially transmitting layer are each configured circular and have a diameter of 10 microns to 100 microns. 4. The security element according to claim 2 , wherein the gaps in the reflecting layer and the gaps in the partially transmitting layer are arranged each in a regular grid, each regular grid being defined by a grid unit cell having one or two legs, and wherein an angle significantly different from 0° is used between the legs of the grid unity cells of the two grids. 5. The security element according to claim 1 , characterized in that the portion of the total area of the multitude of gaps in the reflecting layer is about 20% with respect to the total area of the reflecting layer. 6. The security element according to claim 1 , characterized in that the portion of the total area of the gaps in the partially transmitting layer is 10% to 40% with respect to the total area of the region of the partially transmitting layer, in which an appearance is visible in top view. 7. The security element according to claim 1 , characterized in that the multitude of the gaps in the reflecting layer result in their entirety in the shape of at least one alphanumeric character, a drawing or a pattern. 8. The security element according to claim 1 , characterized in that the multi-layer composition, capable of interference, is configured in three layers and consists of a reflecting layer, a middle dielectric layer and a partially transmitting layer. 9. The security element according to claim 1 , characterized in that the multi-layer composition, capable of interference, is configured in five layers and consists of a middle reflecting layer, two dielectric layers surrounding the middle reflecting layer on each side, and two outer partially transmitting layers. 10. The security element according to claim 1 , characterized in that at the locations, at which the partially transmitting layer has gaps, also the dielectric layer is left open. 11. The security element according to claim 1 , characterized in that the multi-layer composition, capable of interference, is combined with at least one optically active micro structure, for example a hologram, a sub wavelength grating, a refractive micro structure, a matte structure or a blazed grating. 12. The security element according to claim 1 , characterized in that the security element comprises further security elements, such as fluorescence or security print, which are arranged in the register with respect to the at least one gap in the multi-layer composition, capable of interference. 13. A method of producing the security element according to claim 1 , characterized in that the at least one reflecting layer and the at least one partially transmitting layer are printed or vapor deposited onto the at least one dielectric layer at least in partial regions and the at least one gap is generated by demetallization. 14. The method according to claim 13 , characterized in that the vapor depositing of the single layers is performed by mans of vacuum vapor deposition, such as sputtering, reactive sputtering, Physical Vapor Deposition or Chemical Vapor Deposition. 15. The method according to claim 13 , characterized in that the demetallization is performed by means of washing processes, etching, oil-ablation, lift-off or laser demetallization. 16. The method according to claim 14 , characterized in that the demetallization is performed by means of washing processes, etching, oil-ablation, lift-off or laser demetallization. 17. The security element according to claim 1 , characterized in that the gaps in the at least one reflecting layer and the gaps in the at least one partially transmitting layer are configured line shaped and have a width of 30 microns to 70 microns.