Abstract: A reflective optical element (10) for use in an EUV system is disclosed. The reflective optical element includes a base body, which is produced at least partly from a substrate material. At least one cooling channel through which a cooling medium can flow is arranged in the base body. A material having a thermal conductivity of greater than 50 W/mK is provided as substrate material. The reflective optical element also includes a polishing layer, which is applied on the substrate material. The polishing layer includes an amorphous material which can be processed via polishing.

Abstract: The disclosure relates to a light beam intensity non-uniformity correction device that includes an optical element having a light entrance face with an antireflective property. According to the invention the antireflective property is locally amended in order to enhance light beam intensity uniformity.

Abstract: The disclosure relates to a light beam intensity non-uniformity correction device that includes an optical element having a light entrance face with an antireflective property. According to the invention the antireflective property is locally amended in order to enhance light beam intensity uniformity.

Abstract: In a method for manufacturing a blazed grating from a prefabricated initial blazed grating, a blazed grating the substrate of a first material of which has a surface, which has an initial surface profile having an initial blaze angle, is provided. An auxiliary layer of a second material is applied onto the surface of the substrate, wherein the second material is different from the first material. The auxiliary layer is removed at least partially by means of etching, wherein the etching is carried out at least until the etching simultaneously acts on the auxiliary layer and on the initial surface profile of the substrate. A ratio between an etching rate for the auxiliary layer and an etching rate for the substrate is adjusted such that the initial blaze angle is reduced to a final blaze angle. Further, a blazed grating manufactured in that way and an optical device having such a blazed grating, are described.

Abstract: A method for manufacturing an optical element having at least one surface with an optically effective structure, from a substrate, is described, wherein the substrate is provided, an auxiliary layer is applied onto the substrate, a surface structure is formed on a surface of the auxiliary layer, and the auxiliary layer is ion beam etched such that the surface structure of the auxiliary layer is transferred to the substrate in order to obtain the optically effective structure of the optical element.