Electromagnetic highly transparent radome for multi-band applications and wideband applications

What is claimed: 1. A radome for shielding a transmitter/receiver unit, comprising: a wall forming a window portion having a core layer, a first cover layer and a second cover layer arranged so that the first cover layer and the core layer and the second cover layer and core layer are mechanically connected to one another in such a manner that the core layer is arranged between the first cover layer and the second cover layer, wherein the first cover layer and the core layer are arranged such that a surface of the first cover layer is, at least in sections, adjacent to a first surface of the core layer, and the second cover layer and the core layer are arranged such that a surface of the second cover layer is, at least in sections, adjacent to a second surface of the core layer, wherein the first cover layer comprises at least a first partial layer, a second partial layer and a third partial layer, the first partial layer being arranged such that it forms a first surface of the wall, the second partial layer being arranged between the first partial layer and the third partial layer, and the first partial layer and the third partial layer having higher dielectric constants than that of the second partial layer, and wherein the second cover layer comprises at least a fourth partial layer, a fifth partial layer and a sixth partial layer, the fourth partial layer being arranged such that it forms a second surface of the wall, the fifth partial layer being arranged between the fourth partial layer and the sixth partial layer, and the fourth partial layer and the sixth partial layer having higher dielectric constants than that of the fifth partial layer. 2. The radome according to claim 1 , wherein the first partial layer of the first cover layer is directly adjacent to the second partial layer of the first cover layer. 3. The radome according to claim 1 , wherein the third partial layer of the first cover layer is directly adjacent to the second partial layer of the first cover layer. 4. The radome according to claim 1 , wherein the first partial layer of the first cover layer has a dielectric constant that is equal to or less than the third partial layer of the first cover layer. 5. The radome according to claim 1 , wherein the first partial layer of the first cover layer has a layer thickness that is greater than or equal to the layer thickness of the third partial layer of the first cover layer. 6. The radome according to claim 1 , wherein the first cover layer further comprises a seventh partial layer that is arranged between the third partial layer of the first cover layer and the core layer, the seventh partial layer of the first cover layer having a lower dielectric constant than that of the first partial layer of the first cover layer and a lower dielectric constant than that of the third partial layer of the first cover layer. 7. The radome according to claim 6 , wherein the first cover layer further comprises an eighth partial layer which is arranged between the seventh partial layer and the core layer, the eighth partial layer having a higher dielectric constant than that of the second partial layer of the first cover layer and a higher dielectric constant than that of the seventh partial layer of the first cover layer. 8. The radome according to claim 7 , wherein at least one of the first partial layer, the third partial layer and the fifth partial layer of the first cover layer has a layer thickness less than or equal to at least one of the second partial layer and the fourth partial layer of the first cover layer. 9. The radome according to claim 1 , wherein the first partial layer of the first cover layer has a layer thickness between 0.05 mm and 2 mm. 10. The radome according to claim 1 , wherein the second partial layer of the first cover layer has a layer thickness between 1 mm and 2 mm. 11. The radome according to claim 1 , wherein the second cover layer is structured mirror-symmetrical manner to the first cover layer, in relation to the core layer as an axis of symmetry. 12. The radome according to claim 1 , wherein the core layer comprises a layer thickness between 10 mm and 50 mm. 13. The radome according to claim 1 , wherein the core layer has a lower dielectric constant than the first partial layer of the first cover layer. 14. A method of forming a wall of a radome for shielding a transmitter/receiver unit, the method comprising: mechanically connecting, at least in sections, a surface of a first cover layer to a first surface of a core layer and, at least in sections, a surface of a second cover layer to a second surface of the core layer so that the core layer is arranged between the first cover layer and the second cover layer; forming the first cover layer from at least a first partial layer, a second partial layer and a third partial layer, the first partial layer being arranged such that it forms a first surface of the wall, the second partial layer being arranged between the first partial layer and the third partial layer, and the first partial layer and the third partial layer having higher dielectric constants than that of the second partial layer; and forming the second cover layer from at least a fourth partial layer, a fifth partial layer and a sixth partial layer, the fourth partial layer being arranged such that it forms a second surface of the wall, the fifth partial layer being arranged between the fourth partial layer and the sixth partial layer, and the fourth partial layer and the sixth partial layer having higher dielectric constants than that of the fifth partial layer, wherein the wall forms a window portion of the radome. 15. The method according to claim 14 , wherein the first partial layer of the first cover layer is directly adjacent to the second partial layer of the first cover layer, and wherein the third partial layer of the first cover layer is directly adjacent to the second partial layer of the first cover layer. 16. The method according to claim 14 , wherein a dielectric constant of the first partial layer of the first cover layer is less than or equal to a dielectric constant of the third partial layer of the first cover layer. 17. The method according to claim 14 , wherein a layer thickness of the first partial layer of the first cover layer is greater than or equal to the layer thickness of the third partial layer of the first cover layer. 18. The method according to claim 14 , wherein the first partial layer of the first cover layer has a layer thickness between 0.05 mm and 2 mm. 19. The method according to claim 14 , wherein the second partial layer of the first cover layer has a layer thickness between 1 mm and 2 mm. 20. The method according to claim 14 , wherein the core layer comprises a layer thickness between 10 mm and 50 mm.