Patent application number | Description | Published |
20080239503 | PROJECTION OBJECTIVE OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A projection objective of a microlithographic projection exposure apparatus comprises a manipulator for reducing rotationally asymmetric image errors. The manipulator in turn contains a lens, an optical element and an interspace formed between the lens and the optical element, which can be filled with a liquid. At least one actuator acting exclusively on the lens is furthermore provided, which can generate a rotationally asymmetric deformation of the lens. | 10-02-2008 |
20090153829 | LITHOGRAPHIC PROJECTION OBJECTIVE - Projection objectives, such as projection objectives of lithography projection exposure apparatuses, as well as related systems, components and methods, such as methods of revising and/or repairing such objectives, are disclosed. | 06-18-2009 |
20110019169 | PROJECTION OBJECTIVE OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A projection objective of a microlithographic projection exposure apparatus comprises a manipulator for reducing rotationally asymmetric image errors. The manipulator in turn contains a lens, an optical element and an interspace formed between the lens and the optical element, which can be filled with a liquid. At least one actuator acting exclusively on the lens is furthermore provided, which can generate a rotationally asymmetric deformation of the lens. | 01-27-2011 |
20110181855 | PROJECTION EXPOSURE APPARATUS WITH OPTIMIZED ADJUSTMENT POSSIBILITY - A projection apparatus for microlithography for imaging an object field includes an objective, one or a plurality of manipulators for manipulating one or a plurality of optical elements of the objective, a control unit for regulating or controlling the one or the plurality of manipulators, a determining device for determining at least one or a plurality of image aberrations of the objective, a memory comprising upper bounds for one or a plurality of specifications of the objective, including upper bounds for image aberrations and/or movements for the manipulators, wherein when determining an overshooting of one of the upper bounds by one of the image aberrations and/or an overshooting of one of the upper bounds by one of the manipulator movements by regulation or control of at least one manipulator within at most 30000 ms, or 10000 ms, or 5000 ms, or 1000 ms, or 200 ms, or 20 ms, or 5 ms, or 1 ms, an undershooting of the upper bounds can be effected. | 07-28-2011 |
20110279803 | METHOD FOR CORRECTING A LITHOGRAPHY PROJECTION OBJECTIVE, AND SUCH A PROJECTION OBJECTIVE - A method for correcting at least one image defect of a projection objective of a lithography projection exposure machine, the projection objective comprising an optical arrangement composed of a plurality of lenses and at least one mirror, the at least one mirror having an optically operative surface that can be defective and is thus responsible for the at least one image defect, comprises the steps of: at least approximately determining a ratio VM of principal ray height h | 11-17-2011 |
20120188524 | PROJECTION EXPOSURE APPARATUS WITH OPTIMIZED ADJUSTMENT POSSIBILITY - A microlithography projection objective includes an optical element, a manipulator configured to manipulate the optical element, and a control unit configured to control the manipulator. The control unit includes a first device configured to control movement of the manipulator, a memory comprising an upper bound for a range of movement of the manipulator, and a second device configured to generate a merit function based on a square of a root mean square (RMS) of at least one error and configured to minimize the merit function subordinate to the upper bound for the range of movement of the manipulator. | 07-26-2012 |
20120188636 | METHOD FOR CORRECTING A LITHOGRAPHY PROJECTION OBJECTIVE, AND SUCH A PROJECTION OBJECTIVE - A method for correcting at least one image defect of a projection objective of a lithography projection exposure machine, the projection objective comprising an optical arrangement composed of a plurality of lenses and at least one mirror, the at least one mirror having an optically operative surface that can be defective and is thus responsible for the at least one image defect, comprises the steps of: at least approximately determining a ratio VM of principal ray height h | 07-26-2012 |
20130070221 | MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A microlithographic projection exposure apparatus includes a projection light source, a heating light source, a catoptric projection lens and a reflecting switching element, which can be arranged outside of the projection lens and can be displaced between a first position and a second position via a drive. Only the projection light can enter the projection lens in the first position of the switching element, and only the heating light can enter the projection lens in the second position of the switching element. | 03-21-2013 |
20130188246 | Imaging Optical System for Microlithography - An imaging optical system, in particular a projection objective, for microlithography, includes optical elements to guide electromagnetic radiation with a wavelength in a path to image an object field into an image plane. The imaging optical system includes a pupil, having coordinates (p, q), which, together with the image field, having coordinates (x, y) of the optical system, spans an extended 4-dimensional pupil space, having coordinates (x, y, p, q), as a function of which a wavefront W(x, y, p, q) of the radiation passing through the optical system is defined. The wavefront W can therefore be defined in the pupil plane as a function of an extended 4-dimensional pupil space spanned by the image field (x, y) and the pupil (p, q) as W(x, y, p, q)=W(t), with t=(x, y, p, q). | 07-25-2013 |
20130250266 | Projection exposure apparatus with optimized adjustment possibility - Method for operating a projection exposure apparatus for microlithography, the projection exposure apparatus comprising an optical element, a manipulator, which acts on the optical element by changing the temperature of the optical element and the deflection of which brings about a heat flow caused by the manipulator into the optical element. The history of the effects, in particular the temperatures introduced into the optical element or the optical effects caused thereby, of the manipulator are recorded in a record. | 09-26-2013 |
20130258302 | Projection Exposure Apparatus with at least One Manipulator - A projection exposure apparatus for microlithography includes a projection lens which includes a plurality of optical elements for imaging mask structures onto a substrate during an exposure process. The projection exposure apparatus also includes at least one manipulator configured to change, as part of a manipulator actuation, the optical effects of at least one of the optical elements within the projection lens by changing a state variable of the optical element along a predetermined travel. The projection exposure apparatus further includes an algorithm generator configured to generate a travel generating optimization algorithm, adapted to at least one predetermined imaging parameter, on the basis of the at least one predetermined imaging parameter. | 10-03-2013 |
20140078482 | LITHOGRAPHIC PROJECTION OBJECTIVE - Projection objectives, such as projection objectives of lithography projection exposure apparatuses, as well as related systems, components and methods, such as methods of revising and/or repairing such objectives, are disclosed. | 03-20-2014 |
20140104587 | PROJECTION ARRANGEMENT - A projection arrangement for imaging lithographic structure information comprises: an optical element, which has at least partly a coating composed of an electrically conductive layer material. The coating comprises a continuous region, which has no elements that shade projection light. In this case, the layer material and/or the optical element change(s) an optical property, in particular a refractive index or an optical path length, depending on a temperature change. At least one mechanism for coupling energy into the layer material is provided, which couples in energy in such a way that the layer material converts coupled-in energy into thermal energy. The layer material may comprise graphene, chromium and/or molybdenum sulfide (MoS2). | 04-17-2014 |
20140176924 | PROJECTION EXPOSURE APPARATUS WITH OPTIMIZED ADJUSTMENT POSSIBILITY - A projection exposure apparatus for microlithography includes: an illumination system configured to illuminate a mask in an object field with exposure light; and a projection objective comprising multiple optical elements configured to image the exposure light from the mask in the object field to a wafer in an image field. The projection exposure apparatus is a wafer scanner configured to move the wafer relative to the mask during an exposure of the wafer with the exposure light. The projection objective further includes at least one manipulator configured to manipulate at least one of the optical elements and a control unit configured to control the manipulator. The control unit is configured to manipulate the optical element with the manipulator during the exposure of the wafer with the exposure light. | 06-26-2014 |
20140185024 | PROJECTION OBJECTIVE OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A projection objective of a microlithographic projection exposure apparatus comprises a wavefront correction device comprising a refractive optical element that has two opposite optical surfaces, through which projection light passes, and a circumferential rim surface extending between the two optical surfaces. A first and a second optical system are configured to direct first and second heating light to different portions of the rim surface such that at least a portion of the first and second heating light enters the refractive optical element. A temperature distribution caused by a partial absorption of the heating light results in a refractive index distribution inside the refractive optical element that corrects a wavefront error. At least the first optical system comprises a focusing optical element that focuses the first heating light in a focal area such that the first heating light emerging from the focal area impinges on the rim surface. | 07-03-2014 |
20140239192 | ILLUMINATION AND DISPLACEMENT DEVICE FOR A PROJECTION EXPOSURE APPARATUS - An illumination and displacement device for a projection exposure apparatus comprises an illumination optical unit for illuminating an illumination field. An object holder serves for mounting an object in such a way that at least one part of the object can be arranged in the illumination field. An object holder drive serves for displacing the object during illumination in an object displacement direction. A correction device serves for the spatially resolved influencing of an intensity of the illumination at least of sections of the illumination field, wherein there is a spatial resolution of the influencing of the intensity of the illumination of the illumination field at least along the object displacement direction. This results in an illumination and displacement device in which field-dependent imaging aberrations which are present during the projection exposure do not undesirably affect a projection result. | 08-28-2014 |
20140307308 | Reflective Optical Element for the EUV Wavelength Range, Method for Producing and for Correcting Such an Element, Projection Lens for Microlithography Comprising Such an Element, and Projection Exposure Apparatus for Microlithography Comprising Such a Projection Lens - A reflective optical element | 10-16-2014 |
20140327892 | METHOD OF OPERATING A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS AND PROJECTION OBJECTIVE OF SUCH AN APPARATUS - A projection objective of a microlithographic projection exposure apparatus has a wavefront correction device comprising a first refractive optical element and a second refractive optical element. The first refractive optical element comprises a first optical material having, for an operating wavelength of the apparatus, an index of refraction that decreases with increasing temperature. The second refractive optical element comprises a second optical material having, for an operating wavelength of the apparatus, an index of refraction that increases with increasing temperature. In a correction mode of the correction device, a first heating device produces a non-uniform and variable first temperature distribution in the first optical material, and a second heating device produces a non-uniform and variable second temperature distribution in the second optical material. | 11-06-2014 |
20140347721 | Projection Lens for EUV Microlithography, Film Element and Method for Producing a Projection Lens Comprising a Film Element - A film element of an EUV-transmitting wavefront correction device is arranged in a beam path and includes a first layer of first layer material having a first complex refractive index n | 11-27-2014 |