Patent application number | Description | Published |
20080316459 | POLARIZATION-MODULATING OPTICAL ELEMENT - The invention relates to a projection system, comprising a radiation source, an illumination system operable to illuminate a structured mask, and a projection objective for projecting an image of the mask structure onto a light-sensitive substrate, wherein said projection system comprises an optical system comprising an optical axis or a preferred direction given by the direction of a light beam propagating through the optical system; the optical system comprising a temperature compensated polarization-modulating optical element described by coordinates of a coordinate system, wherein one preferred coordinate of the coordinate system is parallel to the optical axis or parallel to said preferred direction; said temperature compensated polarization-modulating optical element comprising a first and a second polarization-modulating optical element, the first and/or the second polarization-modulating optical element comprising solid and/or liquid optically active material and a profile of effective optical thickness, wherein the effective optical thickness varies at least as a function of one coordinate different from the preferred coordinate of the coordinate system, in addition or alternative the first and/or the second polarization-modulating optical element comprises solid and/or liquid optically active material, wherein the effective optical thickness is constant as a function of at least one coordinate different from the preferred coordinate of the coordinate system; wherein the first polarization-modulating optical element comprises optically active material with a specific rotation of opposite sign compared to the optically active material of the second polarization-modulating optical element. | 12-25-2008 |
20080316598 | POLARIZATION-MODULATING OPTICAL ELEMENT - A polarization-modulating optical element consisting of an optically active crystal material has a thickness profile where the thickness, as measured in the direction of the optical axis, varies over the area of the optical element. The polarization-modulating optical element has the effect that the plane of oscillation of a first linearly polarized light ray and the plane of oscillation of a second line early polarized light ray are rotated, respectively, by a first angle of rotation and a second angle of rotation, with the first angle of rotation and the second angle of rotation being different from each other. | 12-25-2008 |
20090002675 | POLARIZATION-MODULATING OPTICAL ELEMENT - A polarization-modulating optical element consisting of an optically active crystal material has a thickness profile where the thickness, as measured in the direction of the optical axis, varies over the area of the optical element. The polarization-modulating optical element has the effect that the plane of oscillation of a first linearly polarized light ray and the plane of oscillation of a second linearly polarized light ray are rotated, respectively, by a first angle of rotation and a second angle of rotation, with the first angle of rotation and the second angle of rotation being different from each other. | 01-01-2009 |
20090021715 | MICROLITHOGRAPHIC ILLUMINATION SYSTEM - A microlithographic illumination system can include a light distribution device that can generate a two-dimensional intensity distribution in a first illumination plane. A first raster array of optical raster elements can generates a raster array of secondary light sources. A device with an additional optical effect can be disposed spatially adjacent to the two raster arrays. The device can be configured as an illumination angle variation device. The device can influence the intensity and/or the phase and/or the beam direction of the illumination light. The influence can be such that an intensity contribution of raster elements to the total illumination intensity can vary across the illumination field. This can enable the illumination intensity to be influenced across the illumination field in a defined manner with respect to the total illumination intensity and/or with respect to the intensity contributions from different directions of illumination. | 01-22-2009 |
20090021716 | ILLUMINATION SYSTEM FOR A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - Illumination systems for microlithographic projection exposure apparatus, as well as related systems, components and methods are disclosed. In some embodiments, an illumination system includes one or more scattering structures and an optical integrator that produces a plurality of secondary light sources. | 01-22-2009 |
20090262324 | ILLUMINATION OPTICS FOR PROJECTION MICROLITHOGRAPHY AND RELATED METHODS - A microlithographic projection exposure apparatus ( | 10-22-2009 |
20100039629 | METHOD AND DEVICE FOR MONITORING MULTIPLE MIRROR ARRAYS IN AN ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system of a microlithographic projection exposure apparatus has a pupil surface and an essentially flat arrangement of desirably individually drivable beam deviating elements for variable illumination of the pupil surface. Each beam deviating element allows deviation of a projection light beam incident on it to be achieved as a function of a control signal applied to the beam deviating element. A measurement illumination instrument directs a measurement light beam, independent of the projection light beams, onto a beam deviating element. A detector instrument records the measurement light beam after deviation by the beam deviating element. An evaluation unit determines the deviation of the projection light beam from measurement signals provided by the detector instrument. | 02-18-2010 |
20100045957 | POLARIZATION-MODULATING OPTICAL ELEMENT - The invention relates to a projection system, comprising a radiation source, an illumination system operable to illuminate a structured mask, and a projection objective for projecting an image of the mask structure onto a light-sensitive substrate, wherein said projection system comprises an optical system comprising an optical axis or a preferred direction given by the direction of a light beam propagating through the optical system; the optical system comprising a temperature compensated polarization-modulating optical element described by coordinates of a coordinate system, wherein one preferred coordinate of the coordinate system is parallel to the optical axis or parallel to said preferred direction; said temperature compensated polarization-modulating optical element comprising a first and a second polarization-modulating optical element, the first and/or the second polarization-modulating optical element comprising solid and/or liquid optically active material and a profile of effective optical thickness, wherein the effective optical thickness varies at least as a function of one coordinate different from the preferred coordinate of the coordinate system, in addition or alternative the first and/or the second polarization-modulating optical element comprises solid and/or liquid optically active material, wherein the effective optical thickness is constant as a function of at least one coordinate different from the preferred coordinate of the coordinate system; wherein the first polarization-modulating optical element comprises optically active material with a specific rotation of opposite sign compared to the optically active material of the second polarization-modulating optical element. | 02-25-2010 |
20100060873 | ILLUMINATION SYSTEM FOR ILLUMINATING A MASK IN A MICROLITHOGRAPHIC EXPOSURE APPARATUS - An illumination system for illuminating a mask in a microlithographic exposure apparatus has an optical axis and a pupil surface. The system can include an array of reflective or transparent beam deflection elements such as mirrors. Each deflection element can be adapted to deflect an impinging light ray by a deflection angle that is variable in response to a control signal. The beam deflection elements can be arranged in a first plane. The system can further include an optical raster element, which includes a plurality of microlenses and/or diffractive structures. The beam deflection elements), which can be arranged in a first plane, and the optical raster element, which can be arranged in a second plane, can commonly produce a two-dimensional far field intensity distribution. An optical imaging system can optically conjugate the first plane to the second plane. | 03-11-2010 |
20100103400 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system of a microlithographic projection exposure apparatus comprises a pupil surface and an arrangement of individually drivable beam deviating elements. Each beam deviating element is configured to direct light impinging thereon onto different positions on the pupil surface in response to a control signal applied to the beam deviating element. According to the disclosure an attenuation unit is provided which is configured to reduce the intensity of light, which is directed by any arbitrary beam deviating element (onto the pupil surface, by more than 50%. This makes it possible to reduce the intensity of light in the pupil surface that has been reflected by defective beam deviating elements. | 04-29-2010 |
20100149504 | ILLUMINATION DEVICE OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS, AND MICROLITHOGRAPHIC PROJECTION EXPOSURE METHOD - Illumination devices of a microlithographic projection exposure apparatus, include a deflection device with which at least two light beams impinging on the deflection device can be variably deflected independently of one another by variation of the deflection angle in each case in such a way that each of the light beams can be directed onto at least one location in a pupil plane of the illumination device via at least two different beam paths; wherein, on the beam paths, at least one optical property of the respective light beam is influenced differently. | 06-17-2010 |
20100157269 | ILLUMINATION SYSTEM FOR ILLUMINATING A MASK IN A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system for illuminating a mask in a scanning microlithographic projection exposure apparatus has an objective with an object plane, at least one pupil surface and an image plane in which a mask can be arranged. A beam deflection array of reflective or transparent beam deflection elements is provided, where each beam deflection element is adapted to deflect an impinging light ray by a deflection angle that is variable in response to a control signal. The beam deflection elements are arranged in or in close proximity to the object plane of the objective. | 06-24-2010 |
20100177293 | POLARIZATION-MODULATING OPTICAL ELEMENT - A polarization-modulating optical element consisting of an optically active crystal material has a thickness profile where the thickness, as measured in the direction of the optical axis, varies over the area of the optical element. The polarization-modulating optical element has the effect that the plane of oscillation of a first linearly polarized light ray and the plane of oscillation of a second linearly polarized light ray are rotated, respectively, by a first angle of rotation and a second angle of rotation, with the first angle of rotation and the second angle of rotation being different from each other. | 07-15-2010 |
20100265482 | ILLUMINATION SYSTEM FOR ILLUMINATING A MASK IN A MICROLITHOGRAPHIC EXPOSURE APPARATUS - An illumination system of a micro-lithographic projection exposure apparatus is provided, which is configured to illuminate a mask positioned in a mask plane. The system includes a pupil shaping optical subsystem and illuminator optics that illuminate a beam deflecting component. For determining a property of the beam deflecting component, an intensity distribution in a system pupil surface of the illumination system is determined. Then the property of the beam deflecting component is determined such that the intensity distribution produced by the pupil shaping subsystem in the system pupil surface approximates the intensity distribution determined before. At least one of the following aberrations are taken into account in this determination: (i) an aberration produced by the illuminator optics; (ii) an aberration produced by the pupil shaping optical subsystem; (iii) an aberration produced by an optical element arranged between the system pupil surface and the mask plane. | 10-21-2010 |
20100283984 | MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A projection exposure apparatus for microlithography comprises illumination optics for illuminating object field points of an object field in an object plane is disclosed. The illumination optics have, for each object field point of the object field, an exit pupil associated with the object point, where sin(γ) is a greatest marginal angle value of the exit pupil. The illumination optics include a multi-mirror array that includes a plurality of mirrors to adjust an intensity distribution in exit pupils associated to the object field points. The illumination optics further contain at least one optical system to temporally stabilize the illumination of the multi-mirror array so that, for each object field point, the intensity distribution in the associated exit pupil deviates from a desired intensity distribution in the associated exit pupil in the case of a centroid angle value sin(β) by less than 2% expressed in terms of the greatest marginal angle value sin(γ) of the associated exit pupil and/or, in the case of ellipticity by less than 2%, and/or in the case of a pole balance by less than 2%. | 11-11-2010 |
20100283985 | MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A projection exposure apparatus for microlithography comprises illumination optics for illuminating object field points of an object field in an object plane is disclosed. The illumination optics have, for each object field point of the object field, an exit pupil associated with the object point, where sin(γ) is a greatest marginal angle value of the exit pupil. The illumination optics include a multi-mirror array that includes a plurality of mirrors to adjust an intensity distribution in exit pupils associated to the object field points. The illumination optics further contain at least one optical system to temporally stabilize the illumination of the multi-mirror array so that, for each object field point, the intensity distribution in the associated exit pupil deviates from a desired intensity distribution in the associated exit pupil in the case of a centroid angle value sin(β) by less than 2% expressed in terms of the greatest marginal angle value sin(γ) of the associated exit pupil and/or, in the case of ellipticity by less than 2%, and/or in the case of a pole balance by less than 2%. | 11-11-2010 |
20100315616 | ILLUMINATION DEVICE OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS, AND MICROLITHOGRAPHIC PROJECTION EXPOSURE METHOD - Illumination devices of a microlithographic projection exposure apparatus, include a deflection device with which at least two light beams impinging on the deflection device can be variably deflected independently of one another by variation of the deflection angle in each case in such a way that each of the light beams can be directed onto at least one location in a pupil plane of the illumination device via at least two different beam paths; wherein, on the beam paths, at least one optical property of the respective light beam is influenced differently. | 12-16-2010 |
20110019172 | ILLUMINATION OPTICS AND PROJECTION EXPOSURE APPARATUS - An illumination optics illuminates an object field of a projection exposure apparatus for microlithography. The illumination optics include a condenser group of optical components which guide a bundle of useful light. An objective group of bundle-guiding components is arranged downstream of the condenser group. At least one component of the condenser group and at least one component of the objective group are displaceable for compensation of deviations of the object field, which is in an actual illumination state, from a desired illumination state. | 01-27-2011 |
20110085151 | ILLUMINATION OPTICAL SYSTEM FOR MICROLITHOGRAPHY AND ILLUMINATION SYSTEM AND PROJECTION EXPOSURE SYSTEM WITH AN ILLUMINATION OPTICAL SYSTEM OF THIS TYPE - An illumination optical system for microlithography is used to guide an illumination light bundle from a radiation source to an object field in an object plane. A field facet mirror has a plurality of field facets to predetermine defined illumination conditions in the object field. A following optical system is arranged downstream of the field facet mirror to transfer the illumination light into the object field. The following optical system has a pupil facet mirror with a plurality of pupil facets. Some of the field facets are divided into individual mirrors, which predetermine individual mirror illumination channels. The latter illuminate object field portions, which are smaller than the object field. At least some of the individual mirrors are configured as individual correction mirrors. The latter can be tilted between at least two tilting positions, a central region illumination taking place in a basic tilting position and a surrounding region illumination of the object field taking place in a correction tilting position. An illumination optical system is the result, with which a correction of undesired variations of illumination parameters, in particular an illumination intensity distribution over the object field, is possible without loss of light. | 04-14-2011 |
20110102758 | ILLUMINATION SYSTEM FOR A MICROLITHOGRAPHY PROJECTION EXPOSURE APPARATUS, MICROLITHOGRAPHY PROJECTION EXPOSURE APPARATUS COMPRISING SUCH AN ILLUMINATION SYSTEM, AND FOURIER OPTICAL SYSTEM - An illumination system for a microlithography projection exposure apparatus for illuminating an illumination field with the light from a primary light source has a variably adjustable pupil shaping unit for receiving light from the primary light source and for generating a variably adjustable two-dimensional intensity distribution in a pupil shaping surface of the illumination system. The pupil shaping unit has a Fourier optical system for converting an entrance beam bundle entering through an entrance plane of the Fourier optical system into an exit beam bundle exiting from an exit plane of the Fourier optical system. The Fourier optical system has a focal length f | 05-05-2011 |
20110122388 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system of a microlithographic projection exposure apparatus includes an optical raster element configured to produce a plurality of secondary light sources located in a system pupil surface. The optical raster element has a plurality of light entrance facets, each being associated with one of the secondary light sources. A beam deflecting device includes a beam deflection array of reflective or transparent beam deflecting elements, each being configured to illuminate a spot on one of the light entrance facets at a position that is variable by changing a deflection angle produced by the beam deflecting element. A control unit is configured to control the beam deflection elements such that variable light patterns assembled from the spots can be formed on at least one of the plurality of light entrance facets. | 05-26-2011 |
20110188019 | POLARIZATION-MODULATING OPTICAL ELEMENT - The invention relates to a projection system, comprising a radiation source, an illumination system operable to illuminate a structured mask, and a projection objective for projecting an image of the mask structure onto a light-sensitive substrate, wherein said projection system comprises an optical system comprising an optical axis or a preferred direction given by the direction of a light beam propagating through the optical system; the optical system comprising a temperature compensated polarization-modulating optical element described by coordinates of a coordinate system, wherein one preferred coordinate of the coordinate system is parallel to the optical axis or parallel to said preferred direction; said temperature compensated polarization-modulating optical element comprising a first and a second polarization-modulating optical element, the first and/or the second polarization-modulating optical element comprising solid and/or liquid optically active material and a profile of effective optical thickness, wherein the effective optical thickness varies at least as a function of one coordinate different from the preferred coordinate of the coordinate system, in addition or alternative the first and/or the second polarization-modulating optical element comprises solid and/or liquid optically active material, wherein the effective optical thickness is constant as a function of at least one coordinate different from the preferred coordinate of the coordinate system; wherein the first polarization-modulating optical element comprises optically active material with a specific rotation of opposite sign compared to the optically active material of the second polarization-modulating optical element. | 08-04-2011 |
20110228247 | ILLUMINATION SYSTEM AND LITHOGRAPHIC APPARATUS - An illumination system is disclosed having a polarization member that includes first and second polarization modifiers movable into at least partial intersection with a radiation beam such that the respective polarization modifier applies a modified polarization to at least part of the beam. The illumination system further includes an array of individually controllable reflective elements positioned to receive the radiation beam after it has passed the polarization member, and a controller configured to control movement of the first and second polarization modifiers such that the first and second polarization modifiers intersect with different portions of the radiation beam. | 09-22-2011 |
20110285978 | ILLUMINATION SYSTEM FOR A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system for a microlithographic projection exposure step-and-scan apparatus has a light source, a first optical raster element and a second optical raster element. The first optical raster element extends in a first pupil plane of the illumination system and is designed such that the geometrical optical flux of the system is increased perpendicular to a scan direction of the projection exposure apparatus. The second optical raster element extends in a second pupil plane of the illumination system, which is not necessarily different from the first pupil plane, and is designed such that the geometrical optical flux of the system is increased in the scan direction and perpendicular thereto. This makes it possible to improve the irradiance uniformity in a reticle plane. | 11-24-2011 |
20120002185 | MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A microlithographic projection exposure apparatus includes an optical surface, which may be formed by a plurality of micro-mirrors, and a measurement device which is configured to measure a parameter related to the optical surface at a plurality of locations. The measurement device includes an illumination unit with a plurality of illumination members, each having a light exit facet. An optical imaging system establishes an imaging relationship between an object plane in which at least two light exit facets are arranged, and an image plane which at least substantially coincides with the optical surface. A detector unit measures the property of measuring light after it has interacted with the optical surface, and an evaluation unit determines the surface related parameter for each of the locations on the basis of the properties determined by the detector unit. | 01-05-2012 |
20120019796 | ILLUMINATION SYSTEM FOR MICROLITHOGRAPHY - An illumination system for microlithography serves to illuminate an illumination field with illumination light of a primary light source. A first raster arrangement has bundle-forming first raster elements which are arranged in a first plane of the illumination system or adjacent to the plane. The first raster arrangement serves to generate a raster arrangement of secondary light sources. A transmission optics serves for superimposed transmission of the illumination light of the secondary light sources into the illumination field. The transmission optics has a second raster arrangement with bundle-forming second raster elements. In each case one of the raster elements of the first raster arrangement is allocated to one of the raster elements of the second raster arrangement for guiding a partial bundle of an entire bundle of illumination light. The first raster arrangement for example has at least two types (I, II, III) of the first raster elements which have different bundle-influencing effects. The raster elements of the two raster arrangements are arranged relative to one another in such a way that to each raster element type (I to III) is allocated at least one individual distance (Δ | 01-26-2012 |
20120206704 | ILLUMINATION OPTICAL UNIT FOR PROJECTION LITHOGRAPHY - An illumination optical unit for projection lithography for illuminating an object field, in which an object to be imaged can be arranged, with illumination light has a field facet mirror having a plurality of field facets. A pupil facet mirror of the illumination optical unit has a plurality of pupil facets. The pupil facets serve for imaging the field facets respectively assigned individually to the pupil facets into the object field. An individual mirror array of the illumination optical unit has individual mirrors that can be tilted in driven fashion individually. The individual mirror array is arranged in an illumination light beam path upstream of the field facet mirror. This can result in flexibly configurable illumination by the illumination optical unit, this illumination being readily adaptable to predetermined values. | 08-16-2012 |
20120242968 | METHOD FOR ADJUSTING AN ILLUMINATION SYSTEM OF A PROJECTION EXPOSURE APPARATUS FOR PROJECTION LITHOGRAPHY - A method includes moving a correction device into a neutral position; subsequently ascertaining, for a given arrangement of imaging light channels in the illumination optical unit of the projection exposure apparatus, intensity distributions of at least some of the individual imaging light partial beams along a transverse coordinate transverse to a displacement direction of an object to be imaged; subsequently ascertaining, in dependence on the transverse coordinate, an actual variation of actual values of structure image sizes of object structures in an image field, onto which the object is imaged; and subsequently specifying a predetermined variation of the structure image sizes over the transverse coordinate and displacing correction elements of the correction device, starting from the neutral position, such that the actual variation matches the predetermined variation within a tolerance bandwidth. The method can provide improved imaging results as compared to known uniformity adjustment. | 09-27-2012 |
20120293784 | METHOD AND DEVICE FOR MONITORING MULTIPLE MIRROR ARRAYS IN AN ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - Microlithographic illumination system includes individually drivable elements to variably illuminate a pupil surface of the system. Each element deviates an incident light beam based on a control signal applied to the element. The system also includes an instrument to provide a measurement signal, and a model-based state estimator configured to compute, for each element, an estimated state vector based on the measurement signal. The estimated state vector represents: a deviation of a light beam caused by the element; and a time derivative of the deviation. The illumination system further includes a regulator configured to receive, for each element: a) the estimated state vector; and b) target values for: i) the deviation of the light beam caused by the deviating element; and ii) the time derivative of the deviation. | 11-22-2012 |
20130021591 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system of a microlithographic projection exposure apparatus includes a spatial light modulator which varies an intensity distribution in a pupil surface. The modulator includes an array of mirrors that reflect impinging projection light into directions that depend on control signals applied to the mirrors. A prism, which directs the projection light towards the spatial light modulator, has a double pass surface on which the projection light impinges twice, namely a first time when leaving the prism and before it is reflected by the mirrors, and a second time when entering the prism and after it has been reflected by the mirrors. A pupil perturbation suppressing mechanism is provided that reduces reflections of projection light when it impinges the first time on the double pass surface, and/or prevents that light portions being a result of such reflections contribute to the intensity distribution in the pupil surface. | 01-24-2013 |
20130044303 | METHOD FOR STRESS-ADJUSTED OPERATION OF A PROJECTION EXPOSURE SYSTEM AND CORRESPONDING PROJECTION EXPOSURE SYSTEM - A projection exposure system and a method for operating a projection exposure system for microlithography with an illumination system are disclosed. The illumination system includes at least one variably adjustable pupil-defining element. The illumination stress of at least one optical element of the projection exposure system is determined automatically in the case of an adjustment of the at least one variably adjustable pupil-defining element. From the automatically determined illumination stress, the maximum radiant power of the light source is set or determined and/or in which an illumination system is provided with which different illumination settings can be made. Usage of the projection exposure system is recorded and, from the history of the usage, at least one state parameter of at least one optical element of the projection exposure system is determined. | 02-21-2013 |
20130057844 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system of a microlithographic projection exposure apparatus includes a light source to produce projection light beam, and a first and a second diffractive optical element between the light source and a pupil plane of the illumination system. The diffractive effect produced by each diffractive optical element depends on the position of a light field that is irradiated by the projection light on the diffractive optical elements. A displacement mechanism changes the mutual spatial arrangement of the diffractive optical elements. In at least one of the mutual spatial arrangements, which can be obtained with the help of the displacement mechanism, the light field extends both over the first and the second diffractive optical element. This makes it possible to produce in a simple manner continuously variable illumination settings. | 03-07-2013 |
20130077076 | MICROLITHOGRAPHY ILLUMINATION OPTICAL SYSTEM AND MICROLITHOGRAPHY PROJECTION EXPOSURE APPARATUS INCLUDING SAME - A microlithography illumination optical system is used to guide illumination light from a primary light source to an object field. A mirror array of the illumination optical system has a plurality of individual mirrors, which can be tilted independently of one another by actuators and are connected to associated tilting actuators. A controller is used to activate the actuators. A raster module of the illumination optical system has a plurality of raster elements to produce a spatially distributed arrangement of secondary light sources. | 03-28-2013 |
20130077077 | OPTICAL SYSTEM FOR A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS AND MICROLITHOGRAPHIC EXPOSURE METHOD - An optical system for a microlithographic projection exposure apparatus and a microlithographic exposure method are disclosed. In an embodiment an optical system for a microlithographic projection exposure apparatus includes at least one mirror arrangement having a plurality of mirror elements which are displaceable independently of each other for altering an angular distribution of the light reflected by the mirror arrangement. The optical system also includes at least one manipulator downstream of the mirror arrangement in the light propagation direction. The manipulator has a raster arrangement of manipulator elements so that light incident on the manipulator during operation of the optical system is influenced differently in its polarization state and/or in its intensity in dependence on the incidence location. | 03-28-2013 |
20130148092 | ILLUMINATION SYSTEM FOR A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - Illumination systems for microlithographic projection exposure apparatus, as well as related systems, components and methods are disclosed. In some embodiments, an illumination system includes one or more scattering structures and an optical integrator that produces a plurality of secondary light sources. | 06-13-2013 |
20130222778 | ILLUMINATION APPARATUS FOR MICROLITHOGRAPHY PROJECTION SYSTEM INCLUDING POLARIZATION-MODULATING OPTICAL ELEMENT - A polarization-modulating optical element consisting of an optically active crystal material has a thickness profile where the thickness, as measured in the direction of the optical axis, varies over the area of the optical element. The polarization-modulating optical element has the effect that the plane of oscillation of a first linearly polarized light ray and the plane of oscillation of a second linearly polarized light ray are rotated, respectively, by a first angle of rotation and a second angle of rotation, with the first angle of rotation and the second angle of rotation being different from each other. | 08-29-2013 |
20130250264 | ILLUMINATION SYSTEM FOR ILLUMINATING A MASK IN A MICROLITHOGRAPHIC EXPOSURE APPARATUS - An illumination system of a micro-lithographic projection exposure apparatus is provided, which is configured to illuminate a mask positioned in a mask plane. The system includes a pupil shaping optical subsystem and illuminator optics that illuminate a beam deflecting component. For determining a property of the beam deflecting component, an intensity distribution in a system pupil surface of the illumination system is determined. Then the property of the beam deflecting component is determined such that the intensity distribution produced by the pupil shaping subsystem in the system pupil surface approximates the intensity distribution determined before. At least one of the following aberrations are taken into account in this determination: (i) an aberration produced by the illuminator optics; (ii) an aberration produced by the pupil shaping optical subsystem; (iii) an aberration produced by an optical element arranged between the system pupil surface and the mask plane. | 09-26-2013 |
20130265560 | EUV Lithography System - An EUV lithography system | 10-10-2013 |
20130293861 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system of a microlithographic projection exposure apparatus comprises an optical integrator having a plurality of light entrance facets and a beam deflection array of reflective or transparent beam deflecting elements. Each beam deflecting element is configured to illuminate a spot on the optical integrator at a position that is variable by changing a deflection angle produced by the beam deflecting element. The illumination system further comprises a control unit which is configured to control the beam deflection elements in such a manner that a light pattern assembled from the spots on at least one of the light entrance facets is varied in response to an input command that a field dependency of the angular irradiance distribution in a mask plane shall be modified. | 11-07-2013 |
20130293862 | POLARIZATION-MODULATING OPTICAL ELEMENT - A microlithography optical system includes a projection objective and an illumination system that includes a temperature compensated polarization-modulating optical element. The temperature compensated polarization-modulating optical element includes a first polarization-modulating optical element of optically active material, the first polarization-modulating optical element having a first specific rotation with a sign. The temperature compensated polarization-modulating optical element includes also includes a second polarization-modulating optical element of optically active material, the second polarization-modulating optical element having a second specific rotation with a sign opposite to the sign of the first specific rotation. | 11-07-2013 |
20130308115 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system of a microlithographic projection exposure apparatus comprises a light source which is configured to produce projection light (PL), a pupil plane and a diffractive optical element that is arranged between the light source and the pupil plane such that an irradiance distribution of projection light (PL) in the pupil plane depends on the position of a field that is illuminated by the projection light (PL) on the diffractive optical element. The illumination system further comprises an optical imaging system-that is arranged between the light source and the diffractive optical element. The optical imaging system ensures that changes of the direction and divergence of the projection light (PL) emitted by the light source have no substantial effect on the position and size of the field which is illuminated on the diffractive optical element by the projection light (PL). | 11-21-2013 |
20140043665 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system of a microlithographic projection exposure apparatus comprises an optical raster plate having a light entrance surface. An irradiance distribution on the light entrance surface determines an angular light distribution of projection light when it impinges on a mask to be illuminated. The illumination system further comprises a control unit and a spatial light modulator which produces on the light entrance surface of the optical raster plate a plurality of light spots whose positions can be varied. At least some of the light spots have, along a reference direction (X), a spatial irradiance distribution comprising a portion in which the irradiance varies periodically with a spatial period P. | 02-13-2014 |
20140102355 | PRODUCING POLARIZATION-MODULATING OPTICAL ELEMENT FOR MICROLITHOGRAPHY SYSTEM - Methods of producing a polarization-modulating element that modulates a polarization state of incident light into a predetermined polarization state, the polarization-modulating element being used with an illumination optical apparatus, include preparing an optical material having optical activity, and providing the optical material with a circumferentially varying thickness profile and a central region that is an aperture having no optical activity. The thickness profile is set so that light in a linearly polarized state having a direction of polarization substantially along a single direction, is transformed into light in an azimuthal polarization state having a direction of polarization substantially along a circumferential direction or into light in a radially polarized state having a direction of polarization substantially along the radial direction. | 04-17-2014 |
20140176930 | MICROLITHOGRAPHIC ILLUMINATION SYSTEM - A microlithographic illumination system can include a light distribution device that can generate a two-dimensional intensity distribution in a first illumination plane. A first raster array of optical raster elements can generates a raster array of secondary light sources. A device with an additional optical effect can be disposed spatially adjacent to the two raster arrays. The device can be configured as an illumination angle variation device. The device can influence the intensity and/or the phase and/or the beam direction of the illumination light. The influence can be such that an intensity contribution of raster elements to the total illumination intensity can vary across the illumination field. This can enable the illumination intensity to be influenced across the illumination field in a defined manner with respect to the total illumination intensity and/or with respect to the intensity contributions from different directions of illumination. | 06-26-2014 |
20140185027 | ILLUMINATION OPTICS AND PROJECTION EXPOSURE APPARATUS - An illumination optics illuminates an object field of a projection exposure apparatus for microlithography. The illumination optics include a condenser group of optical components which guide a bundle of useful light. An objective group of bundle-guiding components is arranged downstream of the condenser group. At least one component of the condenser group and at least one component of the objective group are displaceable for compensation of deviations of the object field, which is in an actual illumination state, from a desired illumination state. | 07-03-2014 |
20140211188 | MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A projection exposure apparatus for microlithography comprises illumination optics for illuminating object field points of an object field in an object plane is disclosed. The illumination optics have, for each object field point of the object field, an exit pupil associated with the object point, where sin(γ) is a greatest marginal angle value of the exit pupil. The illumination optics include a multi-mirror array that includes a plurality of mirrors to adjust an intensity distribution in exit pupils associated to the object field points. The illumination optics further contain at least one optical system to temporally stabilize the illumination of the multi-mirror array so that, for each object field point, the intensity distribution in the associated exit pupil deviates from a second adjusted intensity distribution in the associated exit pupil by less than 0.1 in at least one of an inner σ or an outer σ. | 07-31-2014 |
20140233006 | METHOD AND DEVICE FOR MONITORING MULTIPLE MIRROR ARRAYS IN AN ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - Microlithographic illumination system includes individually drivable elements to variably illuminate a pupil surface of the system. Each element deviates an incident light beam based on a control signal applied to the element. The system also includes an instrument to provide a measurement signal, and a model-based state estimator configured to compute, for each element, an estimated state vector based on the measurement signal. The estimated state vector represents: a deviation of a light beam caused by the element; and a time derivative of the deviation. The illumination system further includes a regulator configured to receive, for each element: a) the estimated state vector; and b) target values for: i) the deviation of the light beam caused by the deviating element; and ii) the time derivative of the deviation. | 08-21-2014 |
20140247437 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system of a microlithographic projection exposure apparatus includes an optical raster element configured to produce a plurality of secondary light sources located in a system pupil surface. The optical raster element has a plurality of light entrance facets, each being associated with one of the secondary light sources. A beam deflecting device includes a beam deflection array of reflective or transparent beam deflecting elements, each being configured to illuminate a spot on one of the light entrance facets at a position that is variable by changing a deflection angle produced by the beam deflecting element. A control unit is configured to control the beam deflection elements such that variable light patterns assembled from the spots can be formed on at least one of the plurality of light entrance facets. | 09-04-2014 |
20140368803 | ILLUMINATION OPTICAL UNIT FOR EUV PROJECTION LITHOGRAPHY, AND OPTICAL SYSTEM COMPRISING SUCH AN ILLUMINATION OPTICAL UNIT - An illumination optical unit for EUV projection lithography guides illumination light to an illumination field, in which a lithography mask can be arranged. A facet mirror with a plurality of facets guides the illumination light to the illumination field. Respectively one illumination channel which guides an illumination light partial beam is predetermined by one of the facets. Exactly one illumination channel is guided over respectively one of the facets. The illumination optical unit is configured so that, at any time and at any point in the illumination field when the illumination optical unit is in operation, any pairs of illumination light partial beams guided over different illumination channels are incident on this illumination field point at times of incidence, the time difference of which is greater than a coherence duration of the illumination light. | 12-18-2014 |
20140377692 | MASK FOR MICROLITHOGRAPHY AND SCANNING PROJECTION EXPOSURE METHOD UTILIZING THE MASK - A mask for microlithography comprises a substrate; a first pattern area on the substrate, the first pattern area comprising a first pattern extending over a first length in a mask scanning direction and a first width in a direction perpendicular to the mask scan direction; and a second pattern area on the substrate adjacent to the first pattern area in the mask scanning direction, the second pattern area comprising a second pattern extending over a second length in the mask scanning direction and a second width identical to the first width in the direction perpendicular to the mask scan direction. | 12-25-2014 |
20150015875 | Measuring Device for Measuring an Illumination Property - A measuring device ( | 01-15-2015 |
20150022798 | ILLUMINATION SYSTEM FOR MICROLITHOGRAPHY - A raster arrangement includes first and second types of raster elements which have different bundle-influencing effects. There is a distance step between a first raster area and a second raster area. The first raster area comprises a raster element of the first raster element type. The second raster area includes a raster element of the second raster element type. The raster arrangement is configured to be used in a microlithography illumination system. | 01-22-2015 |
20150049321 | FACET MIRROR - Illumination optical unit for illuminating an object field in a projection exposure apparatus, comprising a first facet mirror with a structure, which has a spatial frequency of at least 0.2 mm | 02-19-2015 |
20150062549 | ASSEMBLY FOR A PROJECTION EXPOSURE APPARATUS FOR EUV PROJECTION LITHOGRAPHY - An assembly for a projection exposure apparatus for EUV projection lithography has an illumination optical unit for guiding illumination light to an illumination field, in which a lithography mask can be arranged. The illumination optical unit comprises a first facet mirror, which comprises a plurality of mirror arrays with respectively a plurality of individual mirrors. The individual mirrors provide individual mirror illumination channels for guiding illumination light partial beams to the illumination field. The mirror arrays of the first facet mirror are arranged in an array superstructure. Gaps extend along at least one main direction (HRα) between neighboring ones of the mirror arrays. Furthermore, the illumination optical unit comprises a second facet mirror, which comprises a plurality of facets, which respectively contribute to imaging a group of the individual mirrors of the field facet mirror into the illumination field via a group mirror illumination channel. | 03-05-2015 |
20150085271 | PROJECTION EXPOSURE APPARATUS AND METHOD FOR CONTROLLING A PROJECTION EXPOSURE APPARATUS - A method is provided for controlling a projection exposure apparatus for microlithography, embodied as a scanner, in the exposure operation, in which a reticle is moved along a scanning axis with respect to a frame of the projection exposure apparatus such that the reticle is scanned by an illumination field radiated thereon, and the radiation of the illumination field is guided onto a wafer after interaction with the reticle in order to generate a desired dose distribution on the wafer. The method comprises the following steps: measuring positional changes of the illumination field in the direction of the scanning axis with respect to the frame of the projection exposure apparatus, and correcting the influence of a measured positional change of the illumination field on the dose distribution on the wafer by modifying at least one operational parameter of the projection exposure apparatus. | 03-26-2015 |