Media and device for its manufacture

 

(57) Abstract:

1. The media represents a film structure containing at least one layer of polymeric material having a relief surface, wherein the relief surface is formed by recesses and/or through-hole having the shape of bodies of revolution.

2. Media under item 1, characterized in that the depressions, holes and areas degraded polymeric material of the relief surface have a diameter on the surface of the polymeric material in the range from 0.001 to 0.01 μm.

3. Media under item 1, characterized in that the depressions and holes have the same diameter.

4. Media under item 1, characterized in that the recesses have different depths.

5. Media under item 1, characterized in that at least part of the grooves and the holes filled with the anisotropic material.

6. Media under item 1, characterized in that at least part of the grooves and holes is filled with a transparent conductive material.

7. Media under item 1, characterized in that at least part of the grooves and the holes filled with a substance with magnetic properties.

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9. Media under item 1, characterized in that at least part of the grooves and holes filled with hydrophobic or hydrophilic substance.

10. Media under item 1, characterized in that at least part of the grooves and holes filled luminescense substance.

11. Media in PP.1 to 4, characterized in that at least part of the grooves and holes filled destructured material of the respective polymer layer.

12. Media in p. 1, wherein the film structure comprises at least one layer of magnetic material.

13. Media in p. 1, wherein the film structure comprises at least one layer of Polaroid material.

14. Media in p. 1, wherein the film structure comprises at least one hydrophilic or hydrophobic layer.

15. Media in p. 1, wherein the film structure comprises at least one layer of luminescing material.

16. Media in p. 1, wherein the film structure comprises at least one metal layer partially overlying the layer of polymeric material.

17. Media under item 1, tx">

18. Media under item 1, characterized in that the polymeric materials of the layers of the film structure have different spectral characteristics.

19. Media under item 1, characterized in that the polymeric materials of the layers of the film structure have different refractive indices.

20. Media in p. 1, wherein the film structure has on one side a grid of polymeric material or metal with a hole diameter equal to or greater than 20 microns.

21. Media in p. 20, characterized in that as a polymeric mesh material used terephthalate.

22. Device for the manufacture of information carriers containing consistently located the source of heavy ions, forming a stream of heavy ions, inproved and the target is converted to heavy-ion irradiation in an information carrier, characterized in that the input unit of the spatial amplitude modulation installed in inprovide for system flow formation of heavy ions associated with the actuator rotation and/or movement unit moving target and the control unit, the respective outputs coupled to the inputs of the actuator or moving targets.

24. The device according to p. 23, characterized in that each plate is mounted for rotation about its axis of symmetry.

25. The device according to p. 24, characterized in that the plates are mounted for movement relative to each other within the same row and/or one column.

26. The device according to PP.23 to 25, characterized in that each row of the matrix contains from 10 to 100 plates.

27. The device according to PP.23 to 26, characterized in that each column of the matrix contains from 1 to 10 plates.

28. The device according to p. 23, characterized in that each plate is made of a material that is partially or fully absorbing the heavy ions.

29. Device according to any one of paragraphs.23 to 28, characterized in that the height of each plate is selected with the ability to completely shut off the flow of heavy ions in the vertical plane.

30. Device according to any one of paragraphs.23 to 28, characterized in that the width of the plates ranges from 1.0 to 100 mm

 

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