Patent Number: 
Section: claims

1. A lithographic apparatus comprising a filter device, the filter device comprising a plurality of foils attached to a holder able to rotate around a rotation axis, the foils being arranged substantially parallel to the rotation axis and comprising a uni-directional carbon-fiber composite material selected from the group consisting of a carbon-carbon composite and a carbon-silicon carbide composite. 2. The lithographic apparatus of claim 1, wherein the direction of the fibers in the carbon-fiber composite material is transverse to the rotation axis. 3. The lithographic apparatus of claim 1, wherein the foils comprise one layer of uni-directional carbon-fiber composite material. 4. The lithographic apparatus of claim 1, wherein the foils comprise a first layer of uni-directional carbon-fiber composite material and a second layer of uni-directional carbon-fiber composite material, wherein the direction of the fibers in the first layer is transverse to the direction of the fibers in the second layer. 5. The lithographic apparatus of claim 1, wherein the foils comprise a first layer of uni-directional carbon-fiber composite material and a second layer of uni-directional carbon-fiber composite material, wherein the direction of the fibers in the first layer have a first direction angle relative to a normal perpendicular to the rotation axis and wherein the direction of the fibers in the second layer have a second direction angle relative to the normal, and wherein the first and the second direction angles are in the range of 0°-10° and wherein the mutual angle between the direction of the fibers in the first layer and the second layer is larger than 0° and equal to or smaller than 10°. 6. The lithographic apparatus of claim 1, wherein the foils comprise 2-5 layers of composite material. 7. The lithographic apparatus of claim 1, wherein the foils have a maximum foil thickness in the range of 0.05- 1.2 mm. 8. The lithographic apparatus of claim 1, wherein the foils have a maximum foil thickness in the range of 0.1- 0.4 mm. 9. The lithographic apparatus of claim 1, wherein the holder comprises a plurality of sleeves, wherein each foil comprises a tail part, wherein the sleeves are constructed to receive the tail parts and to prevent release of the foils from the holder in a direction perpendicular to the rotation axis. 10. The lithographic apparatus of claim 1, wherein the filter device comprises 50-200 foils. 11. The lithographic apparatus of claim 1, wherein at least part of the holder comprise a carbon-fiber composite material selected from the group consisting of a carbon-carbon composite and carbon-silicon carbide composite. 12. The lithographic apparatus of claim 1, further comprising a Sn plasma source of radiation constructed to generate EUV radiation. 13. A lithographic apparatus comprising a filter device, the filter device comprising a plurality of foils attached to a holder which is able to rotate around a rotation axis, the foils being arranged parallel to the rotation axis and comprising a uni-directional carbon-fiber composite material which does not substantially react with liquid Sn at a temperature of at least 1000° C. 14. A filter device comprising a plurality of foils attached to a holder which is able to rotate around a rotation axis, the foils being arranged substantially parallel to the rotation axis and comprising a uni-directional carbon-fiber composite material selected from the group consisting of carbon-carbon composite and carbon-silicon carbide composite. 15. The filter device of claim 14, wherein at least part of the holder comprise a carbon-fiber composite material selected from the group consisting of carbon-carbon composite and carbon-silicon carbide composite. 16. A method for the production of a foil for a filter device, the method comprising:a. providing a resin containing pre-impregnated sheet;b. curing the resin;c. optionally reducing the thickness of at least part of the product obtained at b);d. carbonizing the product obtained at b) or c);e. optionally performing one or more times a densifying process, wherein the densifying process comprises infiltrating the carbonized product with a carbon-containing compound and subsequently carbonizing the infiltrated product;f. graphitizing the product obtained at d) or e);g. optionally reducing the thickness of at least part of the product obtained at f)wherein the method comprises reducing the thickness by process c), or by process g), or by both process c) and g), and wherein the foil comprises a uni-directional carbon-fiber composite material selected from the group consisting of carbon-carbon composite and carbon-silicon carbide composite. 17. The method according to claim 16, wherein the resin containing pre-impregnated sheet comprises a laminate of resin containing pre-impregnated sheets. 18. The method according to claim 16, further comprising, after the process b) and before process d), performing one or more times a laminating process, wherein the laminating process comprises:a1. arranging a further resin containing pre-impregnated sheet to the product obtained at b) or c) to obtain a laminate of the product obtained at b) or c) and the further resin containing pre-impregnated sheet; andb1. curing the resin. 19. The method according to claim 18, further comprising reducing the thickness of at least part of the product obtained at b1. 20. The method according to claim 16, comprising performing process e). 21. A device manufacturing method, comprising:patterning a beam of radiation;projecting the patterned beam of radiation onto a target portion of a substrate; andfiltering the beam of radiation using a filter device, the filter device comprising a plurality of foils attached to a holder able to rotate around a rotation axis, the foils being arranged substantially parallel to the rotation axis and comprising a uni-directional carbon-fiber composite material selected from the group consisting of a carbon-carbon composite and a carbon-silicon carbide composite. 22. The device manufacturing method of claim 21, wherein during lithographic processing, rotating the filter device about the rotation axis.