CARL ZEISS SMT AG Patent applications |
Patent application number | Title | Published |
20150015858 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - Liquid is supplied to a space between the projection system of a lithographic apparatus and a substrate. A flow of gas towards a vacuum inlet prevents the humid gas from escaping to other parts of the lithographic apparatus. This may help to protect intricate parts of the lithographic apparatus from being damaged by the presence of humid gas. | 01-15-2015 |
20140293248 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - In an immersion lithography apparatus or device manufacturing method, the position of focus of the projected image is changed during imaging to increase focus latitude. In an embodiment, the focus may be varied using the liquid supply system of the immersion lithographic apparatus. | 10-02-2014 |
20120194790 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - An immersion lithography apparatus includes a liquid supply system configured to supply a liquid to a space through which a beam of radiation passes, the liquid having an optical property that can be tuned by a tuner. The space may be located between the projection system and the substrate. The tuner is arranged to adjust one or more properties of the liquid such as the shape, composition, refractive index and/or absorptivity as a function of space and/or time in order to change the imaging performance of the lithography apparatus. | 08-02-2012 |
20120120377 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - Liquid is supplied to a space between the projection system of a lithographic apparatus and a substrate. A flow of gas towards a vacuum inlet prevents the humid gas from escaping to other parts of the lithographic apparatus. This may help to protect intricate parts of the lithographic apparatus from being damaged by the presence of humid gas. | 05-17-2012 |
20120086926 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - Liquid is supplied to a space between the projection system of a lithographic apparatus and a substrate. A flow of gas towards a vacuum inlet prevents the humid gas from escaping to other parts of the lithographic apparatus. This may help to protect intricate parts of the lithographic apparatus from being damaged by the presence of humid gas. | 04-12-2012 |
20110228246 | PROJECTION OBJECTIVE FOR A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - Another approach to decrease the resolution is to introduce an immersion liquid having high refractive index into the gap that remains between a final lens element on the image side of the projection objective and the photoresist or another photosensitive layer to be exposed. Projection objectives that are designed for immersion operation and are therefore also referred to as immersion objective may reach numerical apertures of more than 1, for example 1.3 or 1.4. The term “immersion liquid” shall, in the context of this application, relate also to what is commonly referred to as “solid immersion”. In the case of solid immersion, the immersion liquid is in fact a solid medium that, however, does not get in direct contact with the photoresist but is spaced apart from it by a distance that is only a fraction of the wavelength used. This ensures that the laws of geometrical optics do not apply such that no total reflection occurs. | 09-22-2011 |
20110211181 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - In an immersion lithography apparatus or device manufacturing method, the position of focus of the projected image is changed during imaging to increase focus latitude. In an embodiment, the focus may be varied using the liquid supply system of the immersion lithographic apparatus. | 09-01-2011 |
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 |
20110181857 | OPTICAL ASSEMBLY - An optical assembly supported in an arrangement, especially in an objective or in an illuminating or exposure system, in the interior of a housing comprising at least one optical element, especially a lens, a mirror, or an aperture, wherein the at least one element is influenceable by at least one manipulator is characterized in that the at least one manipulator is arranged either outside of the housing or in a holding means that is separated entirely or to a large extent by the help of a decoupling means, and that there is provided an effective coupling between the manipulator and the element to be influenced by the manipulator in the interior of the arrangement. | 07-28-2011 |
20110157572 | PROJECTION OPTICS FOR MICROLITHOGRAPHY - A projection optics for microlithography, which images an object field in an object plane into an image field in an image plane, where the projection optics include at least one curved mirror and including at least one refractive subunit, as well as related systems, components, methods and products prepared by such methods, are disclosed. | 06-30-2011 |
20110141484 | METHOD OF MEASURING A DEVIATION OF AN OPTICAL SURFACE FROM A TARGET SHAPE - A method of aligning at least two wave shaping elements, a method of measuring a deviation of an optical surface from a target shape and a measuring apparatus for interferometrically measuring a deviation of an optical surface from a target shape. The method of aligning at least two wave shaping elements, each of which wave shaping elements has a diffractive measurement structure for adapting part of a wave front of incoming light to a respective portion of the target shape, includes: providing a first one of the wave shaping elements with a diffractive alignment structure, arranging the wave shaping elements relative to each other such that each of the diffractive measurement structures is traversed by a separate subset of rays of the incoming light during operation of the measuring apparatus, and aligning the first wave shaping element and a second one of the wave shaping elements relative to each other by evaluating alignment light having consecutively interacted with the diffractive alignment structure and with the second wave shaping element. | 06-16-2011 |
20110134403 | MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A microlithographic projection exposure apparatus contains a projection objective, whose last optical element on the image side is a dry terminating element that has no refractive power and is designed for dry operation of the projection objective. According to the invention, the projection exposure apparatus furthermore contains an immersion terminating element that has no refractive power and is designed for immersed operation of the projection objective. The immersion terminating element is replaceable with the dry terminating element. Preferably, the dry terminating element and/or the immersion terminating element is composed of a plurality of plates, which are made of materials having different refractive indices. | 06-09-2011 |
20110109893 | MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A projection exposure apparatus has a projection lens with an object plane, an image plane, an optical axis and a non-telecentric entrance pupil. The apparatus further comprises an illumination system having an intermediate field plane and a field stop. The field stop is positioned in or in close proximity to the intermediate field plane and defines an illuminated field in the object plane that does not contain the optical axis of the projection lens. The illumination system is configured such that, in the object plane, a mean of the angles formed between all principal rays emanating from the intermediate field plane on the one hand and the optical axis of the projection lens on the other hand differs from 0°. | 05-12-2011 |
20110096316 | ILLUMINATION SYSTEM FOR MICROLITHOGRAPHY - An illumination system for a microlithography projection exposure apparatus for illuminating an illumination field with the light from an assigned light source includes a pupil shaping unit for receiving light from the assigned light source and for generating a predeterminable basic light distribution in a pupil plane of the illumination system, and a transmission filter assigned to the pupil shaping unit and having at least one array of individually drivable individual elements for the spatially resolving transmission filtering of the light impinging on the transmission filter in or in proximity to a pupil plane of the illumination system. The transmission filter generates a predetermined correction of the basic light distribution. An illumination system of this type can generate a multiplicity of location-dependent intensity distributions in a pupil plane of the illumination system, and ensure a high transmittance. | 04-28-2011 |
20110085179 | APPARATUS FOR MICROLITHOGRAPHIC PROJECTION EXPOSURE AND APPARATUS FOR INSPECTING A SURFACE OF A SUBSTRATE - An apparatus ( | 04-14-2011 |
20110079737 | EUV ILLUMINATION SYSTEM WITH A SYSTEM FOR MEASURING FLUCTUATIONS OF THE LIGHT SOURCE - The disclosure relates to an EUV (extreme ultraviolet) illumination system. The system can include at least one EUV light source, and an aperture stop and sensor arrangement for the measurement of intensity fluctuations and/or position changes of the EUV light source, in particular in the range of the effectively utilized wavelengths, or of one of the intermediate images of the EUV light source. The aperture stop and sensor arrangement can include an aperture stop and an EUV position sensor. The aperture stop and sensor arrangement can be arranged in such a way that the aperture stop allows a certain solid angle range of the radiation originating from the EUV light source or from one of its intermediate images to fall on the EUV position sensor. | 04-07-2011 |
20110075121 | CATADIOPTRIC PROJECTION OBJECTIVE - Catadioptric projection objective ( | 03-31-2011 |
20110069296 | MICROLITHOGRAPHIC EXPOSURE METHOD AS WELL AS A PROJECTION EXPOSURE SYSTEM FOR CARRYING OUT THE METHOD - In an exposure method for exposing a substrate which is arranged in the area of an image plane of a projection objective as well as in a projection exposure system for performing that method, output radiation directed at the substrate and having an output polarization state is produced. Through variable adjustment of the output polarization state with the aid of at least one polarization manipulation device, the output polarization state can be formed to approach a nominal output polarization state. The polarization manipulation can be performed in a control loop on the basis of polarization-optical measuring data. | 03-24-2011 |
20110063597 | 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. An optical system for a microlithographic projection exposure apparatus includes an illumination device, which has a mirror arrangement having a plurality of mirror elements which are adjustable independently of one another for altering an angular distribution of the light reflected by the mirror arrangement, and at least one polarization state altering device like, e.g., a photoelastic modulator. | 03-17-2011 |
20110063596 | PROJECTION OBJECTIVE AND PROJECTION EXPOSURE APPARATUS WITH NEGATIVE BACK FOCUS OF THE ENTRY PUPIL - The disclosure concerns a projection objective, which can include an object plane in which an object field is formed, an entry pupil, a mirrored entry pupil (RE) in a mirrored entry pupil plane obtained by mirroring the entry pupil (VE) at the object plane, an image plane, an optical axis, at least a first mirror and a second mirror. The projection objective can have a negative back focus of the entry pupil, and a principal ray originating from a central point of the object field and traversing the objective from the object plane to the image plane can intersect the optical axis in at least one point of intersection, wherein the geometric locations of all points of intersection lie between the image plane and the mirrored entry pupil plane. | 03-17-2011 |
20110063595 | OPTICAL APERTURE DEVICE - An optical module includes an aperture device and a support structure supporting the aperture device. The aperture device defines an aperture edge and an aperture plane. The aperture edge is adapted to define a geometry of a light beam passing the aperture device along an optical axis. The support structure is adapted to hold the aperture device in a defined manner when the aperture plane is inclined with respect to a horizontal plane. A temperature distribution prevails within the aperture device and at least one of the aperture device and the support structure is adapted to maintain at least one of a relative position of the aperture edge with respect to the optical axis and a geometry of the aperture edge substantially unaltered upon an introduction of a thermal energy into the aperture device, where the thermal energy being adapted to cause an alteration in the temperature distribution. | 03-17-2011 |
20110063590 | OPTICAL ELEMENT MODULE - An optical element module comprising a plurality of module components is provided. The module components comprise an optical element, an optical element holder and a contact element. The optical element has a first coefficient of thermal expansion. The optical element holder holds the optical element via the first contact element and has a second coefficient of thermal expansion, the second coefficient of thermal expansion being different from the first coefficient of thermal expansion. At least one of the module components is adapted to provide at least a reduction of forces introduced into the optical element upon a thermally induced position change in the relative position between the optical element and the optical element holder, the position change resulting from a temperature situation variation in a temperature situation of the plurality of module components. | 03-17-2011 |
20110058147 | CLEANING MODULE AND EUV LITHOGRAPHY DEVICE WITH CLEANING MODULE - A cleaning module for an EUV lithography device with a supply ( | 03-10-2011 |
20110051110 | LENS COMPRISING A PLURALITY OF OPTICAL ELEMENT DISPOSED IN A HOUSING - The invention relates to a lens comprising several optical elements that are disposed in a lens housing. At least one sensor array encompassing at least one capacitive sensor unit and/or at least one inductive sensor unit is provided for determining the relative position between a first optical element and a second optical element or between a load-bearing structural element of the lens and a second optical element. | 03-03-2011 |
20110043774 | CLEANING MODULE, EUV LITHOGRAPHY DEVICE AND METHOD FOR THE CLEANING THEREOF - In order to clean optical components ( | 02-24-2011 |
20110038061 | CATADIOPTRIC PROJECTION OBJECTIVE - Catadioptric projection objective ( | 02-17-2011 |
20110026110 | PROJECTION OBJECTIVE FOR LITHOGRAPHY - In some embodiments, a projection objective for lithography includes an optical arrangement of optical elements between an object plane and an image plane. The arrangement generally has at least one intermediate image plane, the arrangement further having at least two correction elements for correcting aberrations, of which a first correction element is arranged optically at least in the vicinity of a pupil plane and a second correction element is arranged in a region which is not optically near either a pupil plane or a field plane. | 02-03-2011 |
20110026003 | PROJECTION OBJECTIVE FOR MICROLITHOGRAPHY - A projection objective for microlithography is used for imaging an object field in an object plane into an image field in an image plane. The projection objective comprises at least six mirrors of which at least one mirror has a freeform reflecting surface. The ratio between an overall length (T) of the projection objective and an object image shift (d | 02-03-2011 |
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 |
20110019171 | OPTICAL UNIT HAVING ADJUSTABLE FORCE ACTION ON AN OPTICAL MODULE - The present disclosure relates to an optical device, in particular for microlithography, having an optical module, a supporting structure and a force-generating device. The force-generating device is connected to the optical module and the supporting structure and is designed to exert a clamping force on the optical module. The force-generating device has a fluidic force-generating element having a working chamber to which a working fluid having a working pressure can be applied. The force-generating element takes the form of a muscle element which exerts a first tensile force at a first working pressure and a second tensile force which is increased with respect to the first tensile force at a second working pressure which is increased with respect to the first working pressure. | 01-27-2011 |
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 |
20110014799 | PROJECTION ILLUMINATION SYSTEM FOR EUV MICROLITHOGRAPHY - A projection illumination installation for EUV microlithography includes an EUV synchrotron light source for producing EUV used light. An object field is illuminated with the used light using illumination optics. The object field is mapped into an image field using projection optics. A scanning device is used to illuminate the object field by deflecting the used light in sync with a projection illumination period. The result is a projection illumination installation in which the output power from an EUV synchrotron light source can be used as efficiently as possible for EUV projection illumination. | 01-20-2011 |
20110013171 | PROJECTION EXPOSURE SYSTEM FOR MICROLITHOGRAPHY WITH A MEASUREMENT DEVICE - A projection exposure system ( | 01-20-2011 |
20110012010 | ILLUMINATION SYSTEM FOR ILLUMINATING A MASK IN A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system for illuminating a mask in a microlithographic projection exposure apparatus includes an array of mirrors or other beam deflecting elements. Each beam deflecting element produces on the surface a projection light spot at a position that is variable by changing a deflection angle produced by the beam deflecting element. A spot shape measuring unit measures the shapes of spots which are produced on the spot measuring unit by the beam deflecting elements. The spot shape measuring unit is arranged outside of every possible path projection light is allowed to take between the array and the mask. A control unit controls the beam deflecting elements such that, at a given instant during an exposure operation of the apparatus, at least one beam deflecting element directs projection light exclusively on the spot shape measuring unit, and at least some beam deflecting elements direct projection light exclusively on the surface. | 01-20-2011 |
20110007387 | CHROMATICALLY CORRECTED CATADIOPTRIC OBJECTIVE AND PROJECTION EXPOSURE APPARATUS INCLUDING THE SAME - A catadioptric objective includes a plurality of optical elements arranged along an optical axis to image a pattern from an object field in an object surface of the objective to an image field in an image surface region of the objective at an image-side numerical aperture NA with electromagnetic radiation from a wavelength band around a central wavelength λ<300 nm. The optical elements include a concave mirror and a plurality of lenses. The projection objective forms an image of the pattern in a respective Petzval surface for each wavelength λ of a wavelength band, the Petzval surfaces deviating from each other for different wavelengths. The plurality of lenses include lenses made from different materials having substantially different Abbe numbers. A longitudinal departure p of the Petzval surface at a given wavelength from a planar reference surface at an edge field point of the image field (at maximum image height y′) measured parallel to the optical axis in the image surface region, varies with the wavelength λ according to: dp/dλ<(15λ/NA | 01-13-2011 |
20110007293 | MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - The disclosure relates to a microlithographic projection exposure apparatus, as well as related components and methods. In some embodiments, a microlithographic projection exposure apparatus includes an illumination system and a projection objective, where the illumination system can illuminate an object plane of the projection objective and the projection objective can produce the image of the object plane on an image plane. A polarization-dependent transmission can be produced in the illumination system such that, for at least one polarization distribution in respect of the light impinging on the object plane, a non-homogeneous intensity distribution in the object plane is obtained. The non-homogeneous intensity distribution can afford a homogeneous intensity distribution in the image plane by virtue of polarization-dependent transmission properties of the projection objective. | 01-13-2011 |
20110001949 | OPTICAL IMAGING ARRANGEMENT - There is provided an optical imaging arrangement comprising: a mask unit comprising a pattern, a substrate unit comprising a substrate, an optical projection unit comprising a group of optical element units, the optical projection unit being adapted to transfer an image of the pattern onto the substrate, a first imaging arrangement component, the first imaging arrangement component being a component of one of the optical element units, a second imaging arrangement component, the second imaging arrangement component being different from the first imaging arrangement component and being a component of one of the mask unit, the optical projection unit and the substrate unit, and a metrology arrangement. The metrology arrangement captures a spatial relationship between the first imaging arrangement component and the second imaging arrangement component. The metrology arrangement comprises a reference element, the reference element being mechanically connected directly to the first imaging arrangement component. | 01-06-2011 |
20110001948 | ILLUMINATION SYSTEM FOR A MICROLITHOGRAPHY PROJECTION EXPOSURE APPARATUS - An illumination system for a microlithography projection exposure apparatus generally includes an optical element formed of a plurality of facet elements. The facet elements are arranged such that, for each facet element, a proportion of the side surfaces of the facet element is at a certain distance from the side surfaces of all the other facet elements. This gives rise to interspaces between the facet elements which are not used optically. The interspaces can be used for simpler mounting of the facet elements or for fitting mechanical components, such as actuators. A collector is used to efficiently illuminate such an optical element. The collector includes a plurality of segments that are in part non-continuous. Alternatively, however, continuous segments with a bend are also possible. | 01-06-2011 |
20110001947 | FACET MIRROR FOR USE IN A PROJECTION EXPOSURE APPARATUS FOR MICROLITHOGRAPHY - A facet mirror is to be used as a bundle-guiding optical component in a projection exposure apparatus for microlithography. The facet mirror has a plurality of separate mirrors. For individual deflection of incident illumination light, the separate mirrors are in each case connected to an actuator in such a way that they are separately tiltable about at least one tilt axis. A control device, which is connected to the actuators, is configured in such a way that a given grouping of the separate mirrors can be grouped into separate mirror groups that include in each case at least two separate mirrors. The result is a facet mirror which, when installed in the projection exposure apparatus, increases the variability for setting various illumination geometries of an object field to be illuminated by the projection exposure apparatus. Various embodiments of separate mirrors for forming the facet mirrors are described. | 01-06-2011 |
20100323299 | PROJECTION OBJECTIVE FOR IMMERSION LITHOGRAPHY - A projection objective suitable for immersion microlithography is designed as a single-waist system with five lens groups, and has a first lens group of negative refractive power, a second lens group of positive refractive power, a third lens group of negative refractive power, a fourth lens group of positive refractive power and a fifth lens group of positive refractive power. The fourth lens group has an entrance surface (E) that lies in the vicinity of a point of inflection of a marginal ray height between the third lens group (LG | 12-23-2010 |
20100321661 | METHOD FOR OPERATING AN ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A method of operating an illumination system of a microlithographic projection exposure apparatus is provided. A set of illumination parameters that describe properties of a light bundle which converges at a point on a mask to be illuminated by the illumination system is first determined. Optical elements whose optical effect on the illumination parameters can be modified as a function of control commands are furthermore determined, as well as sensitivities with which the illumination parameters react to an adjustment of the optical elements, induced by the control commands. The control commands are then determined while taking the previously determined sensitivities into account, such that deviations of the illumination parameters from predetermined target illumination parameters satisfy a predetermined minimisation criterion. These control commands are applied to the optical elements, before the mask is illuminated. | 12-23-2010 |
20100321649 | Optical element - An optical element embodied as a front surface mirror or as a lens wherein the optical element has at least one partial region composed of a material which has the property that the material is cooled upon irradiation with suitable excitation light. | 12-23-2010 |
20100315651 | SYSTEM FOR MEASURING THE IMAGE QUALITY OF AN OPTICAL IMAGING SYSTEM - A measuring system for the optical measurement of an optical imaging system, which is provided to image a pattern arranged in an object surface of the imaging system in an image surface of the imaging system, comprises an object-side structure carrier having an object-side measuring structure, to be arranged on the object side of the imaging system; an image-side structure carrier having an image-side measuring structure, to be arranged on the image side of the imaging system; the object-side measuring structure and the image-side measuring structure being matched to each other in such a way that, when the object-side measuring structure is imaged onto the image-side measuring structure with the aid of the imaging system, a superposition pattern is produced; and a detector for the locally resolving acquisition of the superposition pattern. The imaging system is designed as an immersion system for imaging with the aid of an immersion liquid. A structure carrier to be arranged in the region of the immersion liquid is assigned a protective system in order to increase the resistance of the measuring structure to degradation caused by the immersion liquid. A measurement of immersion systems under immersion conditions is thereby possible without detrimental influence of the immersion liquid on the measuring accuracy. | 12-16-2010 |
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 |
20100309450 | FILTER DEVICE FOR THE COMPENSATION OF AN ASYMMETRIC PUPIL ILLUMINATION - The invention relates to a filter device for an illumination system, especially for the correction of the illumination of the illuminating pupil, including a light source, with the illumination system being passed through by a bundle of illuminating rays from the light source to an object plane, with the bundle of illuminating rays impinging upon the filter device, including at least one filter element which can be introduced into the beam path of the bundle of illuminating rays, with the filter element including an actuating device, so that the filter element can be brought with the help of the actuating device into the bundle of illuminating rays. | 12-09-2010 |
20100309449 | ILLUMINATION SYSTEM FOR A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system for a microlithographic projection exposure apparatus includes a mirror arranged in a multi-mirror array and capable of being tilted via at least one actuator. The illumination system also includes drive electronics, which include a coarse digital-to-analogue converter with a first resolution, and a fine digital-to-analogue converter with a second resolution, and an adder. The second resolution is higher than the first resolution. The adder can add output quantities that are output by the two digital-to-analogue converters to yield an overall quantity that is capable of being applied at least indirectly to the at least one actuator of the mirror. | 12-09-2010 |
20100296160 | LENS BLANK AND LENS ELEMENTS AS WELL AS METHOD FOR THEIR PRODUCTION - A method for manufacturing a preferably asymmetrical lens element ( | 11-25-2010 |
20100290024 | METHOD FOR IMPROVING THE IMAGING PROPERTIES OF A PROJECTION OBJECTIVE, AND SUCH A PROJECTION OBJECTIVE - The invention relates to a method-for improving the imaging properties of a micro lithography projection objective, wherein the projection objective has a plurality of lenses between an object plane and an image plane, a first lens of the plurality of lenses being assigned a first manipulator (ml, Mn) for actively deforming the lens, the first lens being deformed for at least partially correcting an aberration, at least one second lens of the plurality of lenses furthermore being assigned at least one second manipulator, and the second lens being deformed in addition to the first lens. Furthermore, a method is described for selecting at least one lens of a plurality of lenses of a projection objective as actively deformable element, and a projection objective. | 11-18-2010 |
20100290021 | OPTICAL ELEMENT FOR REFLECTION OF UV RADIATION, METHOD FOR MANUFACTURING THE SAME AND PROJECTION EXPOSURE APPARATUS COMPRISING THE SAME - An optical element ( | 11-18-2010 |
20100284652 | COMPOSITE BODY - A composite body is joined together of at least two bodies ( | 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 |
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 |
20100277708 | ILLUMINATION SYSTEM OF A MICROLOTHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system of a microlithographic projection exposure apparatus includes a beam deflection array including a number beam deflection elements, for example mirrors. Each beam deflection element is adapted to deflect an impinging light beam by a deflection angle that is variable in response to control signals. The light beams reflected from the beam deflection elements produce spots in a system pupil surface. The number of spots illuminated in the system pupil surface during an exposure process, during which a mask is imaged on a light sensitive surface, is greater than the number of beam deflection elements. This may be accomplished with the help of a beam multiplier unit that multiplies the light beams reflected from the beam deflection elements. In another embodiment the beam deflecting elements are controlled such that the irradiance distribution produced in the system pupil surface changes between two consecutive light pulses of an exposure process. | 11-04-2010 |
20100277707 | ILLUMINATION OPTICS FOR A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - Illumination optics for a microlithographic projection exposure apparatus is used for illumination of an object field in the object plane with illumination light of a radiation source. The illumination optics has an optical beam influencing element which is divided into at least two beam influencing regions in order to generate various illumination modes for the object field which are independent of a light attenuation. The optical beam influencing element is displaceable between a first beam influencing position where a first one of the beam influencing regions is exposed to a bundle of the illumination light, and at least another beam influencing position where another one of the beam influencing regions is exposed to the bundle of the illumination light. Each of the beam influencing regions has a surface which is exposable to illumination light and has a long and a short side length, with the optical beam influencing element being displaceable perpendicular to the long side length. The result is an illumination optics which allows rapid switching between various illumination settings, preferably within fractions of a second and substantially without light loss. | 11-04-2010 |
20100271716 | REPLACEMENT APPARATUS FOR AN OPTICAL ELEMENT - A replacement apparatus for an optical element mounted between two adjacent optical elements in a lithography objective has a holder for the optical element to be replaced, which holder can be moved into the lithography objective through a lateral opening in a housing of the same. | 10-28-2010 |
20100271607 | OPTICAL ASSEMBLY - An optical assembly supported in an arrangement, especially in an objective or in an illuminating or exposure system, in the interior of a housing comprising at least one optical element, especially a lens, a mirror, or an aperture, wherein the at least one element is influenceable by at least one manipulator is characterized in that the at least one manipulator is arranged either outside of the housing or in a holding means that is separated entirely or to a large extent by the help of a decoupling means, and that there is provided an effective coupling between the manipulator and the element to be influenced by the manipulator in the interior of the arrangement. | 10-28-2010 |
20100265572 | CATADIOPTRIC PROJECTION OBJECTIVE - A catadioptric projection objective for imaging a pattern provided in an object plane of the projection objective onto an image plane of the projection objective has a first, refractive objective part for imaging the pattern provided in the object plane into a first intermediate image; a second objective part including at least one concave mirror for imaging the first intermediate imaging into a second intermediate image; and a third, refractive objective part for imaging the second intermediate imaging onto the image plane; wherein the projection objective has a maximum lens diameter D | 10-21-2010 |
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 |
20100265481 | IMAGING OPTICAL SYSTEM AND PROJECTION EXPOSURE INSTALLATION - An imaging optical system has a plurality of mirrors. These image an object field in an object plane into an image field in an image plane. In the imaging optical system, the ratio of a maximum angle of incidence of imaging light) on reflection surfaces of the mirrors and an image-side numerical aperture of the imaging optical system is less than 33.8°. This can result in an imaging optical system which offers good conditions for a reflective coating of the mirror, with which a low reflection loss can be achieved for imaging light when passing through the imaging optical system, in particular even at wavelengths in the EUV range of less than 10 nm. | 10-21-2010 |
20100265480 | MIRROR FOR THE EUV WAVELENGTH RANGE, PROJECTION OBJECTIVE FOR MICROLITHOGRAPHY COMPRISING SUCH A MIRROR, AND PROJECTION EXPOSURE APPARATUS FOR MICROLITHOGRAPHY COMPRISING SUCH A PROJECTION OBJECTIVE - A mirror for the EUV wavelength range ( | 10-21-2010 |
20100265478 | PROJECTION LENS SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE INSTALLATION - A microlithographic projection exposure apparatus comprises a projection objective which images an object onto an image plane and has a lens with a curved surface. In the projection objective there is a liquid or solid medium which directly adjoins the curved surface over a region which is usable for imaging the object. The projection exposure apparatus also has an adjustable manipulator for reducing an image field curvature which is caused by heating of the medium during the projection operation. | 10-21-2010 |
20100261120 | MIRROR FOR GUIDING A RADIATION BUNDLE - A mirror serves for guiding a radiation bundle. The mirror has a basic body and a coating of a reflective surface of the basic body, the coating increasing the reflectivity of the mirror. A heat dissipating device serves for dissipating heat deposited in the coating. The heat dissipating device has at least one Peltier element. The coating is applied directly on the Peltier element. A temperature setting apparatus has at least one temperature sensor for a temperature of the reflective surface. A regulating device of the Temperature setting apparatus can be connected to the at least one Peltier element and is signal-connected to the at least one temperature sensor. The result is a mirror in which a heat dissipating capacity of the heat dissipating device is improved. | 10-14-2010 |
20100259742 | OBLIQUE MIRROR-TYPE NORMAL-INCIDENCE COLLECTOR SYSTEM FOR LIGHT SOURCES, PARTICULARLY EUV PLASMA DISCHARGE SOURCES - There is provided a collector system. The collector system includes a first collector mirror and a second collector mirror. The first collector mirror receives EUV light from a light source at a first aperture angle via a first beam path, and reflects the EUV light at a second aperture angle along a second beam path. The first aperture angle is larger than or substantially equal to the second aperture angle. The second mirror receives the EUV light from the first mirror at the second aperture angle. The collector is an oblique mirror type normal incidence mirror collector system. | 10-14-2010 |
20100253999 | CATADIOPTRIC PROJECTION OBJECTIVE - A catadioptric projection objective for imaging a pattern provided in an object plane of the projection objective onto an image plane of the projection objective comprises: a first objective part for imaging the pattern provided in the object plane into a first intermediate image; a second objective part for imaging the first intermediate imaging into a second intermediate image; a third objective part for imaging the second intermediate imaging directly onto the image plane; wherein a first concave mirror having a first continuous mirror surface and at least one second concave mirror having a second continuous mirror surface are arranged upstream of the second intermediate image; pupil surfaces are formed between the object plane and the first intermediate image, between the first and the second intermediate image and between the second intermediate image and the image plane; and all concave mirrors are arranged optically remote from a pupil surface. The system has potential for very high numerical apertures at moderate lens material mass consumption. | 10-07-2010 |
20100253926 | ILLUMINATION OPTICS FOR MICROLITHOGRAPHY - An illumination optics for microlithography includes an optical assembly for guiding illumination light to an object field to be illuminated in an object plane. The illumination optics can divide an illumination light radiation bundle into a plurality of radiation sub-bundles which are assigned to different illumination angles of the object field illumination. The illumination optics is configured so that at least some of the radiation sub-bundles are superimposed in a superposition plane which is spaced from the object plane and which is not imaged into the object plane in which superposition takes place. This superposition is such that edges of the superimposed radiation sub-bundles coincide at least partially. In some embodiments, a field intensity setting device includes a plurality of adjacent individual diaphragms which at least attenuate illumination light when exposed thereon. These individual diaphragms are insertable into an illumination light radiation bundle in a direction parallel to an object displacement direction. All individual diaphragms of the field intensity setting device are insertable into the illumination light radiation bundle from one and the same side. | 10-07-2010 |
20100245847 | POSITIONING UNIT AND ALIGNMENT DEVICE FOR AN OPTICAL ELEMENT - The invention relates to a positioning unit for an optical element in a microlithographic projection exposure installation. Said unit comprises a first connection region (A, | 09-30-2010 |
20100235127 | CALIBRATION OF A POSITION MEASURING DEVICE OF AN OPTICAL DEVICE - A method for calibrating a position measuring device of an optical device, including a measurement step in which a movable unit of the optical device is moved according to a predefinable scheme in at least one degree of freedom and a position of the movable unit is determined in the at least one degree of freedom. The position of the movable unit is determined in the at least one degree of freedom in a first measurement via a first measuring device of the position measuring device, and the position of the movable unit is determined in the at least one degree of freedom in a second measurement via a second measuring device of the position measuring device sing a reference element connected to the movable unit. In a calibration step, the first measuring device is calibrated using the results of the first measurement and the second measurement. An encoder system is used as the second measuring device. The reference element includes a reference grid of the encoder system. | 09-16-2010 |
20100231888 | OPTICAL SYSTEM - The disclosure provides an optical system having an optical axis, where the optical system includes a polarization manipulator which includes first and second subelements. The first subelement has a non-planar, optically effective surface. For light passing through the first subelement, the first subelement causes a change in the polarization state. A maximum effective retardation introduced by the first subelement along the optical axis is less than a quarter of the working wavelength of the optical system. The first subelement and the second subelement have mutually facing surfaces which are mutually complementary. The optical system also includes a position manipulator to manipulate the relative position of the first and second subelements. | 09-16-2010 |
20100231887 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A microlithographic projection exposure apparatus includes an illumination system and a projection objective. During use of the microlithographic projection exposure apparatus, the illumination system illuminates an object plane of the projection objective. The illumination system is configured so that light components in point-symmetrical relationship with each other, which are produced during use of the illumination system and which are only superposed in the object plane, have mutually orthogonal polarization states. | 09-16-2010 |
20100231886 | IMAGING OPTICAL SYSTEM AND PROJECTION EXPOSURE APPARATUS FOR MICROLITHOGRAPHY INCLUDING AN IMAGING OPTICAL SYSTEM - In certain aspects, imaging optical systems with a plurality of mirrors image an object field in an object plane into an image field in an image plane. In the light path between non-obscured mirrors, imaging rays pass through at least one multiple pass-through region between spaced-apart planes which are arranged parallel to the object plane and/or parallel to the image plane. The imaging optical systems have at least one pupil plane. The pupil plane is arranged outside the multiple pass-through region between the non-obscured mirrors. This can provide an imaging optical system which provides for an easier correction of image errors | 09-16-2010 |
20100231885 | IMAGING OPTICAL SYSTEM AND PROJECTION EXPOSURE SYSTEM FOR MICROLITHOGRAPHY - An imaging optical system includes a plurality of mirrors that image an object field in an object plane into an image field in an image plane. At least one of the mirrors is obscured, and thus has a opening for imaging light to pass through. The fourth-last mirror in the light path before the image field is not obscured and provides, with an outer edge of the optically effective reflection surface thereof, a central shadowing in a pupil plane of the imaging optical system. The distance between the fourth-last mirror and the last mirror along the optical axis is at least 10% of the distance between the object field and the image field. An intermediate image, which is closest to the image plane, is arranged between the last mirror and the image plane. The imaging optical system can have a numerical aperture of 0.9. These measures, not all of which must be effected simultaneously, lead to an imaging optical system with improved imaging properties and/or reduced production costs. | 09-16-2010 |
20100231884 | IMAGING OPTICAL SYSTEM AND RELATED INSTALLATION AND METHOD - An imaging optical system can image two object fields, each in the same object plane, into two corresponding image fields, each in the same image plane. The two object fields are spatially separated from each another, and the two image fields are spatially separated from each other. The imaging optical system can exhibit increased flexibility of use. | 09-16-2010 |
20100231883 | MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A microlithographic projection exposure apparatus includes a primary illumination system producing projection light, a projection objective and a correction optical system. The correction optical system includes a secondary illumination system, which produces an intensity distribution of correction light in a reference surface, and a correction element which includes a heating material and is arranged in a plane that is at least substantially optically conjugate to the reference surface such that the correction light and the projection light pass through at least one lens contained in the projection objective before they impinge on the correction element. All lenses through which both the correction light and the projection light pass are made of a lens material which has a lower coefficient of absorption for the correction light than the heating material contained in the correction element. | 09-16-2010 |
20100231882 | BUNDLE-GUIDING OPTICAL COLLECTOR FOR COLLECTING THE EMISSION OF A RADIATION SOURCE - A bundle-guiding optical collector collects an emission of a radiation source and forms a radiation bundle from the collected emission. A reflective surface of the collector is the first bundle-forming surface downstream of the radiation source. The reflective surface is formed such that it converts the radiation source into a family of images in a downstream plane. The family of images includes a plurality of radiation source images which are offset to each other in two dimensions (x, y) in a direction perpendicular to the beam direction of the transformed radiation bundle and are arranged relative to each other in a non-rotationally symmetric manner relative to the beam direction of the transformed radiation bundle. The transformed radiation bundle in the downstream plane has a non-rotationally symmetric bundle edge contour relative to the beam direction of the transformed radiation bundle. The result is a collector in which the radiation bundle shape generated by the collector. In other words, the illumination distribution generated by the collector in a defined manner in the plane downstream of the collector has a shape which is freely selectable to the greatest possible extent. | 09-16-2010 |
20100231877 | OPTICAL ELEMENT WITH AT LEAST ONE ELECTRICALLY CONDUCTIVE REGION, AND ILLUMINATION SYSTEM WITH THE OPTICAL ELEMENT - An optical element includes first regions which reflect or transmit the light falling on the optical element. The optical element also includes second regions which are in each instance separated by a distance from a first region and which at least partially surround a first region. The second regions are designed to be at least in part electrically conductive and are electrically insulated from the first regions. The optical element includes a carrier element and at least two first regions in the form of mirror facets which are arranged on the carrier element. The second regions are arranged with a separation from the mirror facets on the carrier element and are electrically insulated against the carrier element as well as against the mirror facet. At least one mirror facet is surrounded by an electrically conductive second region. | 09-16-2010 |
20100220303 | OPTICAL SYSTEM AND METHOD FOR CHARACTERISING AN OPTICAL SYSTEM - The disclosure provides an optical system and a method of characterising an optical system, such as in a microlithographic projection exposure apparatus. According to an aspect, an optical system having an optical axis (OA) includes a first element which is partially translucent for light of a working wavelength of the optical system. The first element has at least one partially reflecting first surface arranged rotated about a first axis of rotation in relation to a plane perpendicular to the optical axis (OA). The optical system also includes a second element in succession to the first element along the optical axis (OA). The second element is partially translucent for light of the working wavelength and has at least one partially reflecting second surface which is arranged rotated about a second axis of rotation in relation to a plane perpendicular to the optical axis (OA). The system further includes an intensity measuring device configured to measure the intensity of light reflected at the first surface and the intensity of light reflected at the second surface. | 09-02-2010 |
20100220302 | PROJECTION EXPOSURE APPARATUS FOR SEMICONDUCTOR LITHOGRAPHY COMPRISING A COOLING DEVICE - A projection exposure apparatus for semiconductor lithography includes a cooling device for cooling components of the projection exposure apparatus. The cooling device contains a liquid cooling medium having a thermal conductivity of greater than 5W/mK. | 09-02-2010 |
20100214675 | OPTICAL ELEMENT MODULE WITH MINIMIZED PARASITIC LOADS - An optical element module is provided. The optical module includes an optical element unit that includes an optical element and a support structure that supports the optical element unit. The support structure includes a support device and a contact device mounted to the support device. The contact device exerts a force on the optical element unit in a first direction via a first contact surface of the contact device. The first contact surface contacts a second contact surface of the optical element unit. The contact device includes a first linking section and a second linking section extending along a second direction running transverse to the first direction and arranged kinematically in series between the first contact surface and the support device. The first linking section and the second linking section are elastically deformed in response to a bending moment resulting from the force. The first linking section and the second linking section are arranged on opposite sides of a reference plane. The reference plane includes the force and runs transverse to the second direction. | 08-26-2010 |
20100214565 | IMAGING MICROOPTICS FOR MEASURING THE POSITION OF AN AERIAL IMAGE - An imaging microoptics, which is compact and robust, includes at least one aspherical member and has a folded beam path. The imaging microoptics provides a magnification |β′| of >800 by magnitude. Furthermore, a system for positioning a wafer with respect to a projection optics includes the imaging microoptics, an image sensor positionable in the image plane of the imaging microoptics, for measuring a position of an aerial image of the projection optics, and a wafer stage with an actuator and a controller for positioning the wafer in dependence of an output signal of the image sensor. | 08-26-2010 |
20100214551 | PROJECTION OBJECTIVE AND METHOD FOR OPTIMIZING A SYSTEM APERTURE STOP OF A PROJECTION OBJECTIVE - In certain aspects, the disclosure relates to a projection objective, in particular for a microlithography exposure apparatus, serving to project an image of an object field in an object plane onto an image field in an image plane. The projection objective includes a system aperture stop and refractive and/or reflective optical elements that are arranged relative to an optical system axis. The centroid of the image field is arranged at a lateral distance from the optical system axis). The system aperture stop has an inner aperture stop border which encloses an aperture stop opening and whose shape is defined by a border contour curve. The border contour curve runs at least in part outside of a plane that spreads orthogonally to the optical system axis. | 08-26-2010 |
20100208254 | METHOD AND APPARATUS FOR MEASURING SCATTERED LIGHT ON AN OPTICAL SYSTEM - A method of measuring scattered light on an optical system includes: providing a first measuring field and a second measuring field, both measuring fields respectively being either of a first light manipulation type or a second light manipulation type, which first light manipulation type is configured to cause incoming light to enter the optical system and which second light manipulation type is configured to prevent incoming light from entering the optical system, and both measuring fields respectively having a second light manipulation type reference structure and a respective measuring structure, which measuring structures are of the second light manipulation type in the case where the measuring fields are of the first light manipulation type, and are first light manipulation type regions of the measuring fields in the case where the measuring fields are of the second light manipulation type, wherein the measuring structures of the respective measuring fields are offset in different directions in relation to the respective reference structure, imaging the first measuring field with the optical system into an image plane and measuring a first light intensity produced herewith at a location in the region of the image of the reference structure of the first measuring field, and imaging the second measuring field with the optical system into the image plane and measuring a second light intensity produced herewith at a location in the region of the image of the reference structure of the second measuring field. | 08-19-2010 |
20100208230 | METHOD FOR ARRANGING AN OPTICAL MODULE IN A MEASURING APPARATUS AND A MEASURING APPARATUS - A method for arranging an optical module in a measuring apparatus includes: providing the measuring apparatus with an irradiation system for irradiating the optical module with electromagnetic radiation, a reference component, and a detection element defining a detection surface, the detection element being disposed in a defined position in relation to the reference component, disposing the optical module in the measuring apparatus such that the radiation emitted by the irradiation system passes through the optical module and impinges onto the detection surface as an exit beam, measuring a position of the exit beam in relation to the detection surface, adjusting the position of the optical module within the measuring apparatus such that the position of the exit beam in relation to the detection surface is brought to correspond to a predetermined position, and establishing position parameters defining the position of the optical module in relation to the reference component. | 08-19-2010 |
20100208225 | PROJECTION OBJECTIVE FOR MICRLOLITHOGRAPHY HAVING AN OBSCURATED PUPIL - A projection objective with obscurated pupil for microlithography has a first optical surface, which has a first region provided for application of useful light, and at least one second optical surface, which has a second region provided for application of useful light. A beam envelope of the useful light extends between the first region and the second region. At least one tube open on the input side and on the output side in the light propagation direction severs to screen scattered light. The at least one tube is between the first optical surface and the second optical surface. The wall of the tube is opaque in the wavelength range of the useful light. The tube extends in the propagation direction of the useful light over at least a partial length of the beam envelope and circumferentially surrounds the beam envelope. | 08-19-2010 |
20100201964 | PROJECTION OBJECTIVE FOR MICROLITHOGRAPHY - An optical system includes an optical element having adjusting elements. The optical element is connected to a rotatable carrying ring via at least one connecting member arranged on the carrying ring directly or via one or a plurality of intermediate elements to the optical element. The rotatable carrying ring is borne in a manner freely rotatable about an axis relative to a fixed outer mount or the optical element via a rotating device. The outer mount, the rotatable carrying ring and the connecting members are constructed as rotatable kinematics in the form of parallel kinematics. | 08-12-2010 |
20100201962 | PROJECTION EXPOSURE METHOD, SYSTEM AND OBJECTIVE - A projection exposure method is disclosed which includes exposing an exposure area of a radiation-sensitive substrate, arranged in an image surface of a projection objective, with at least one image of a pattern of a mask arranged in an object surface of the projection objective in a scanning operation. The scanning operation includes moving the mask relative to an effective object field of the projection objective and simultaneously moving the substrate relative to an effective image field of the projection objective in respective scanning directions. The projection exposure method also includes changing imaging properties of the projection objective actively during the scanning operation according to a given time profile to change dynamically at least one aberration of the projection objective between a beginning and an end of the scanning operation. Changing at least one imaging property of the projection objective includes changing optical properties of a mirror arranged in the projection beam path optically close to a field surface by changing a surface profile of the reflective surface of the mirror in an optically used area. | 08-12-2010 |
20100201960 | OPTICAL SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - In a method for improving imaging properties of an illumination system or a projection objective of a microlithographic projection exposure apparatus, which comprises an optical element having a surface, the shape of the surface is measured directly at various points. To this end, a measuring beam is directed on the points, and the reflected or refracted beam is measured, e.g. using an interferometer. Based on deviations of the measured shape from a target shape, corrective measures are derived so that the imaging errors of the optical system are improved. The corrective measures may comprise a change in the position or the shape of the optical element being analyzed, or another optical element of the optical system. The target shape of the surface may, for example, be determined so that the optical element at least partially corrects imaging errors caused by other optical elements. | 08-12-2010 |
20100201959 | PROJECTION OBJECTIVE FOR MICROLITHOGRAPHY - A projection objective for microlithography includes at least one optical assembly with optical elements which are disposed between an object plane and an image plane. The optical assembly includes at least one optical terminal element, which is disposed close to the image plane. A first immersion liquid is disposed on the image oriented surface of the optical terminal element. A second immersion liquid is disposed on the object oriented surface of the optical terminal element. The object oriented surface includes a first surface section for the imaging light to enter into the terminal element, and the image oriented surface includes a second surface portion for the imaging light to exit from the terminal element. | 08-12-2010 |
20100201958 | OPTICAL CORRECTION DEVICE - The disclosure relates to an optical correction device with thermal actuators for influencing the temperature distribution in the optical correction device. The optical correction device is constructed from at least two partial elements which differ with regard to their ability to transport heat. Furthermore, the disclosure relates to methods for influencing the temperature distribution in an optical element. | 08-12-2010 |
20100200777 | DEVICE FOR CONTROLLING TEMPERATURE OF AN OPTICAL ELEMENT - A device serves for controlling temperature of an optical element provided in vacuum atmosphere. The device has a cooling apparatus having a radiational cooling part, arranged apart from the optical element, for cooling the optical element by radiation heat transfer. A controller serves for controlling temperature of the radiational cooling part. Further, the device comprises a heating part for heating the optical element. The heating part is connected to the controller for controlling the temperature of the heating part. The resulting device for controlling temperature in particular can be used with an optical element in a EUV microlithography tool leading to a stable performance of its optics. | 08-12-2010 |
20100195077 | ILLUMINATION SYSTEM FOR A MICROLITHOGRAPHY PROJECTION EXPOSURE INSTALLATION - An illumination system for a microlithography projection exposure installation is used to illuminate an illumination field with the light from a primary light source ( | 08-05-2010 |
20100195076 | OPTICAL MEMBRANE ELEMENT - An optical membrane element for an optical device in lithography, especially EUV (extreme ultraviolet) lithography, includes at least one membrane layer and a frame, which at least partially surrounds the membrane layer and at which at least part of the rim of the membrane layer is mounted. At least one tautening element is provided, which facilitates tautening of the membrane layer and wherein the optical membrane element can be used in a projection exposure system, especially for EUV lithography, such that the membrane layer of the membrane element can be adjustably tautened, such that the membrane layer is flat. A method for manufacturing a corresponding optical membrane element includes generating a tautening element lithographically together with the membrane layer. | 08-05-2010 |
20100195075 | PROJECTION OBJECTIVE HAVING MIRROR ELEMENTS WITH REFLECTIVE COATINGS - An optical system is disclosed that includes a plurality of elements arranged to image radiation at a wavelength λ from an object field in an object surface to an image field in an image surface. The elements include mirror elements having a reflective surface formed by a reflective coating positioned at a path of radiation. At least one of the mirror elements has a rotationally asymmetrical reflective surface deviating from a best-fit rotationally symmetric reflective surface by about λ or more at one or more locations. The elements include an apodization correction element effective to correct a spatial intensity distribution in an exit pupil of the optical system relative to the optical system without the apodization correcting element. The apodization correction element can be effective to increase symmetry of the spatial intensity distribution in the exit pupil relative to the optical system without the apodization correcting element. | 08-05-2010 |
20100195070 | PROJECTION OBJECTIVE FOR MICROLITHOGRAPHY, PROJECTION EXPOSURE APPARATUS, PROJECTION EXPOSURE METHOD AND OPTICAL CORRECTION PLATE - A projection objective is disclosed. The projection objective can include a plurality of optical elements arranged to image a pattern from an object field in an object surface of the projection objective to an image field in an image surface of the projection objective with electromagnetic operating radiation from a wavelength band around an operating wavelength λ. The plurality of optical elements can include an optical correction plate that includes a body comprising a material transparent to the operating radiation, the body having a first optical surface, a second optical surface, a plate normal substantially perpendicular to the first and second optical surfaces, and a thickness profile defined as a distance between the first and second optical surfaces measured parallel to the plate normal. The first optical surface can have a non-rotationally symmetric aspheric first surface profile with a first peak-to-valley value PV | 08-05-2010 |
20100188738 | Optical imaging device and imaging method for microscopy - The present invention relates to an optical imaging device, in particular for microscopy, with a first optical element group and a second optical element group, wherein the first optical element group and the second optical element group, on an image plane, form an image of an object point of an object plane. The first optical element group comprises a first optical element with a reflective first optical surface and a second optical element with a reflective second optical surface. The second optical element group comprises a third optical element with a reflective third optical surface. The first optical element and the second optical element are formed and arranged such that on formation of the image of the object point, in each case a multiple reflection of at least one imaging beam takes place on the first optical surface and the second optical surface. | 07-29-2010 |
20100183962 | METHOD FOR EXAMINING A WAFER WITH REGARD TO A CONTAMINATION LIMIT AND EUV PROJECTION EXPOSURE SYSTEM - A method for examining at least one wafer ( | 07-22-2010 |
20100182710 | METHOD FOR PRODUCING AN OPTICAL ELEMENT THROUGH A MOLDING PROCESS, OPTICAL ELEMENT PRODUCED ACCORDING TO THE METHOD, COLLECTOR, AND LIGHTING SYSTEM - A method for producing an optical element or part of an optical element having a base body, including:—providing a mold body ( | 07-22-2010 |
20100177320 | METHOD OF MEASURING A DEVIATION OF AN OPTICAL SURFACE FROM A TARGET SHAPE - A method of aligning at least two wave shaping elements, a method of measuring a deviation of an optical surface from a target shape and a measuring apparatus for interferometrically measuring a deviation of an optical surface from a target shape. The method of aligning at least two wave shaping elements, each of which wave shaping elements has a diffractive measurement structure for adapting part of a wave front of incoming light to a respective portion of the target shape, includes: providing a first one of the wave shaping elements with a diffractive alignment structure, arranging the wave shaping elements relative to each other such that each of the diffractive measurement structures is traversed by a separate subset of rays of the incoming light during operation of the measuring apparatus, and aligning the first wave shaping element and a second one of the wave shaping elements relative to each other by evaluating alignment light having consecutively interacted with the diffractive alignment structure and with the second wave shaping element. | 07-15-2010 |
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 |
20100173250 | METHOD FOR A MULTIPLE EXPOSURE, MICROLITHOGRAPHY PROJECTION EXPOSURE INSTALLATION AND A PROJECTION SYSTEM - In a method for multiply exposing at least one substrate coated with a photosensitive layer, a first exposure is carried out in accordance with a first set of exposure parameters on a first projection system ( | 07-08-2010 |
20100172019 | PROJECTION OBJECTIVE AND PROJECTION EXPOSURE APPARATUS INCLUDING THE SAME - A reduction projection objective for projection lithography has a plurality of optical elements configured to image an effective object field arranged in an object surface of the projection objective into an effective image field arranged in an image surface of the projection objective at a reducing magnification ratio |β|<1. The optical elements form a dry objective adapted with regard to aberrations to a gaseous medium with refractive index n′<1.01 filling an image space of finite thickness between an exit surface of the projection objective and the image surface. The optical elements include a largest lens having a maximum lens diameter D | 07-08-2010 |
20100165318 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - The disclosure concerns an illumination system of a microlithographic projection exposure apparatus. The illumination system includes a mirror arrangement which has a plurality of mirror units and at least one element arranged in front of the mirror arrangement in the light propagation direction to produce at least two different states of polarization incident on different mirror units. The mirror units are displaceable independently of each other for altering an angle distribution of the light reflected by the mirror arrangement. | 07-01-2010 |
20100157435 | LITHOGRAPHY PROJECTION OBJECTIVE, AND A METHOD FOR CORRECTING IMAGE DEFECTS OF THE SAME - Projection objectives, as well as related components, systems and methods, are disclosed. In general, a projection objective is configured to image radiation from an object plane to an image plane. A projection objective can include a plurality of optical elements along the optical axis. The plurality of optical elements can include a group of optical elements and a last optical element which is closest to the image plane, and a positioning device configured to move the last optical element relative to the image plane. Typically, a projection objective is configured to be used in a microlithography projection exposure machine. | 06-24-2010 |
20100157270 | APPARATUS FOR MANIPULATION OF AN OPTICAL ELEMENT - The invention relates to an apparatus for manipulation of an optical element ( | 06-24-2010 |
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 |
20100157268 | ILLUMINATION SYSTEM OF A MICROLOTHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system of a microlithographic projection exposure apparatus includes a beam deflection array including a number beam deflection elements, for example mirrors. Each beam deflection element is adapted to deflect an impinging light beam by a deflection angle that is variable in response to control signals. The light beams reflected from the beam deflection elements produce spots in a system pupil surface. The number of spots illuminated in the system pupil surface during an exposure process, during which a mask is imaged on a light sensitive surface, is greater than the number of beam deflection elements. This may be accomplished with the help of a beam multiplier unit that multiplies the light beams reflected from the beam deflection elements. In another embodiment the beam deflecting elements are controlled such that the irradiance distribution produced in the system pupil surface changes between two consecutive light pulses of an exposure process. | 06-24-2010 |
20100157266 | PROJECTION EXPOSURE METHOD AND PROJECTION EXPOSURE APPARATUS FOR MICROLITHOGRAPHY - A projection exposure method for the exposure of a radiation-sensitive substrate arranged in the region of an image surface of a projection objective with at least one image of a pattern of a mask arranged in the region of an object surface of the projection objective includes exposing the substrate with the image of the pattern in an effective image field of the projection objective during an exposure time interval and also altering a relative positioning between a surface of the substrate and a focus surface of the projection objective during the exposure time interval in such a way that image points in the effective image field are exposed with different focus positions of the image of the mask during the exposure time interval. An active compensation of at least one portion of at least one imaging aberration induced by the change in the focus positions during the exposure time interval has the effect that the imaging quality is not significantly impaired by the alteration of the focusing during the exposure time interval. | 06-24-2010 |
20100149671 | HIGH POSITIONING REPRODUCIBLE LOW TORQUE MIRROR - ACTUATOR INTERFACE - The present high positioning reproducible mirror-actuator interface disclosed herein overcomes the deficiencies associated with conventional interface systems and offer a number of advantages that are disclosed herein. Generally, the mirror mounts provide a reliable and robust interface between the mirrors and actuators, that serve to move and position the mirrors, as wells as providing an interface between the mirrors and gravity compensator pins. The mirror mount is characterized as having a body that has an outer peripheral wall that includes a plurality of flexible elements around the perimeter of the body, each having a high stiffness in plane and a high flexibility out of plane. The body is open at the first end to allow flexing of the flexible elements. The flexible elements providing a direct coupling interface between the mirror mount and the mirror. The flexible elements of the mirror mount provides a number of advantages and increases the performance capabilities of the first mechanical interface between the mirror mount and the actuator. | 06-17-2010 |
20100149632 | Optical imaging device and imaging method for microscopy - The present invention relates to an optical imaging device, in particular for microscopy, with a first optical element group and a second optical element group, wherein the first optical element group and the second optical element group, on an image plane, form an image of an object point of an object plane via at least one imaging ray having an imaging ray path. The first optical element group comprises a first optical element with a reflective first optical surface in the imaging ray path and a second optical element with a reflective second optical surface in the imaging ray path, wherein the first optical surface is concave. The second optical element group comprises a third optical element with a concave reflective third optical surface in the imaging ray path and a fourth optical element with a convex reflective fourth optical surface in the imaging ray path without light passage aperture. | 06-17-2010 |
20100149517 | PROJECTION OBJECTIVE AND METHOD FOR ITS MANUFACTURE - A method of manufacturing a projection objective ( | 06-17-2010 |
20100149510 | METHODS FOR PRODUCING AN ANTIREFLECTION SURFACE ON AN OPTICAL ELEMENT, OPTICAL ELEMENT AND ASSOCIATED OPTICAL ARRANGEMENT - Methods for producing an antireflection surface ( | 06-17-2010 |
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 |
20100149503 | METHOD OF STRUCTURING A PHOTOSENSITIVE MATERIAL - A method of structuring a photosensitive material is disclosed. The method includes illuminating a first object structure and projecting a pattern of the first object structure onto a photosensitive material such that the projected pattern of the first object structure is focussed at a first focus position with respect to the photosensitive material. The method also includes illuminating a second object structure and projecting a pattern of the second object structure onto the photosensitive material such that the projected pattern of the second object structure is focussed at a second focus position with respect to the photosensitive material. The respective patterns are projected in the same projection direction. | 06-17-2010 |
20100149500 | PROJECTION LENS FOR MICROLITHOGRAPHY AND CORRESPONDING TERMINAL ELEMENT - The invention relates to a projection lens ( | 06-17-2010 |
20100141917 | METHOD AND SYSTEM FOR INDIRECT DETERMINATION OF LOCAL IRRADIANCE IN AN OPTICAL SYSTEM - The invention concerns a method for the indirect determination of local irradiance in an optical system; wherein the optical system comprises optical elements between which an illuminated beam path is formed and a measurement object which absorbs the radiation in the beam path at least partially is positioned in a partial region of the beam path selected for the locally-resolved determination of the irradiance and the temperature distribution of at least one part of the measurement object is determined by means of a temperature detector. | 06-10-2010 |
20100141912 | EXPOSURE APPARATUS AND MEASURING DEVICE FOR A PROJECTION LENS - A microlithographic projection exposure apparatus includes a projection lens that is configured for immersion operation. For this purpose an immersion liquid is introduced into an immersion space that is located between a last lens of the projection lens on the image side and a photosensitive layer to be exposed. To reduce fluctuations of refractive index resulting from temperature gradients occurring within the immersion liquid, the projection exposure apparatus includes heat transfer elements that heat or cool partial volumes of the immersion liquid so as to achieve an at least substantially homogenous or at least substantially rotationally symmetric temperature distribution within the immersion liquid. | 06-10-2010 |
20100134908 | Catoptric Objectives And Systems Using Catoptric Objectives - In general, in one aspect, the invention features an objective arranged to image radiation from an object plane to an image plane, including a plurality of elements arranged to direct the radiation from the object plane to the image plane, wherein the objective has an image side numerical aperture of more than 0.55 and a maximum image side field dimension of more than 1 mm, and the objective is a catoptric objective. | 06-03-2010 |
20100134907 | MICROLITHOGRAPHY PROJECTION OPTICAL SYSTEM AND METHOD FOR MANUFACTURING A DEVICE - In some embodiments, a catoptric microlithgraphy projection optical system includes a plurality of reflective optical elements arranged to image radiation from an object field in an object plane to an image field in an image plane. The image field can have a size of at least 1 mm×1 mm. This optical system can have an object-image shift (OIS) of about 75 mm or less. Metrology and testing can be easily implemented despite rotations of the optical system about a rotation axis. Such a catoptric microlithgraphy projection optical system can be implemented in a microlithography tool. Such a microlithography tool can be used to produce microstructured components. | 06-03-2010 |
20100134891 | OPTICAL SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - The disclosure concerns an optical system of a microlithographic projection exposure apparatus. To permit comparatively flexible and fast influencing of intensity distribution and/or the polarization state, an optical system includes at least one layer system that is at least one-side bounded by a lens or a mirror. The layer system is an interference layer system of several layers and has at least one liquid or gaseous layer portion with a maximum thickness of one micrometer (μm), and a manipulator for manipulation of the thickness profile of the layer portion. | 06-03-2010 |
20100134880 | PROJECTION OBJECTIVE - The disclosure relates to a projection objective for imaging an object field in an object plane having a field aspect ration (x/y) of at least 1.5 into an image field in an image plane. In general, the projection objective has at least two optically effective surfaces for guiding imaging light in a beam path between the object field and the image field. The projection objective can take up an installed space having a cuboid envelope that is spanned by a length dimension and two transverse dimensions. | 06-03-2010 |
20100134777 | DIAPHRAGM CHANGING DEVICE - The invention relates to an optical imaging device, in particular an objective | 06-03-2010 |
20100134768 | PROJECTION EXPOSURE SYSTEM FOR MICROLITHOGRAPHY - The disclosure relates to a projection exposure system for microlithography, which includes at least one optical system that has at least one optical element with at least two aspherical surfaces essentially arranged rigidly relative to each other. | 06-03-2010 |
20100128367 | PROJECTION OBJECTIVE FOR A MICROLITHOGRAPHY APPARATUS AND METHOD - A projection objective for a microlithography apparatus with improved imaging properties is provided. A manipulator for a projection objective is provided. A microlithography apparatus including a projection objective of this type and/or a manipulator of this type is provided. A method for improving the imaging properties of a projection objective is provided. | 05-27-2010 |
20100128240 | CHROMATICALLY CORRECTED OBJECTIVE AND PROJECTION EXPOSURE APPARATUS INCLUDING THE SAME - An objective having a plurality of optical elements arranged to image a pattern from an object field in an object surface of the objective to an image field in an image surface region of the objective at an image-side numerical aperture NA>0.8 with electromagnetic radiation from a wavelength band around a wavelength λ, includes a number N of dioptric optical elements, each dioptric optical element i made from a transparent material having a normalized optical dispersion | 05-27-2010 |
20100112494 | APPARATUS AND METHOD FOR MEASURING THE OUTGASSING AND EUV LITHOGRAPHY APPARATUS - An apparatus and method for measuring an outgassing in a EUV lithography apparatus. The method includes activating a surface within the EUV lithography apparatus, inducing the outgassing, analyzing a residual gas. Defining a maximum partial pressure, recording a mass spectrum of the residual gas, converting the highest-intensity peaks of the mass spectrum into sub-partial pressures, summing the sub-partial pressures, and comparing the summed result with the defined maximum partial pressure. An EUV lithography apparatus includes a residual gas analyzer and a stimulation unit comprised of at least on of an electron source, an ion source, a photon source, and a plasma source. A measurement setup for measuring the outgassing from components by analyzing the residual gas includes a residual gas analyzer, a vacuum chamber, and a stimulation unit comprised of at least on of an electron source, an ion source, a photon source, and a plasma source. | 05-06-2010 |
20100112465 | OPTICAL ARRANGEMENT FOR THREE-DIMENSIONALLY PATTERNING A MATERIAL LAYER - The disclosure relates to an optical arrangement for three-dimensionally patterning a radiation-sensitive material layer, such as a projection exposure apparatus for microlithography. The optical arrangement includes a mask for forming a three-dimensional radiation pattern, a substrate with the radiation-sensitive material layer, and a projection optical unit for imaging the three-dimensional radiation pattern from the mask into the radiation-sensitive material layer. The optical arrangement is designed to compensate for spherical aberrations along the thickness direction of the radiation-sensitive material layer in order to generate a stigmatic image of the three-dimensional radiation pattern. | 05-06-2010 |
20100103420 | METHOD FOR THE SPATIALLY RESOLVED MEASUREMENT OF BIREFRINGENCE, AND A MEASURING APPARATUS - A method for the spatially resolved measurement of the birefringence distribution of a cylindrically symmetrical blank ( | 04-29-2010 |
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 |
20100097592 | HIGH TRANSMISSION, HIGH APERTURE CATADIOPTRIC PROJECTION OBJECTIVE AND PROJECTION EXPOSURE APPARATUS - The disclosure provides projection objectives which may be used in a microlithographic projection exposure apparatus to expose a radiation-sensitive substrate arranged in the region of an image surface of the projection objective with at least one image of a pattern of a mask arranged in the region of an object surface of the projection objective. The disclosure also provides projection exposure apparatus which include such projection objectives, as well as related components and methods. | 04-22-2010 |
20100085644 | PROJECTION OBJECTIVE AND PROJECTION EXPOSURE APPARATUS FOR MICROLITHOGRAPHY - A projection objective of a projection exposure apparatus for microlithography serves for imaging an object arranged in an object plane onto a light-sensitive wafer in an image plane. The projection objective has a plurality of optical elements which have at least one reflective element and at least one refractive element. The plurality of optical elements lie, in the light propagation direction of the useful light, downstream of the reflective element on a common straight optical axis. The at least one reflective element has a substrate having at least one opening through which light beams can pass. The at least one reflective element is at least partly made from a material which suppresses stray light impinging on the reflective element rearward. | 04-08-2010 |
20100079741 | PROJECTION OBJECTIVE FOR MICROLITHOGRAPHY - A projection objective for use in microlithography, a microlithography projection exposure apparatus with a projection objective, a microlithographic manufacturing method for microstructured components, and a component manufactured under the manufacturing method are disclosed. | 04-01-2010 |
20100079739 | PROJECTION OBJECTIVE FOR MICROLITHOGRAPHY - A projection objective for applications in microlithography, a microlithography projection exposure apparatus with a projection objective, a microlithographic manufacturing method for microstructured components, and a component manufactured using such a manufacturing method are disclosed. | 04-01-2010 |
20100079738 | OPTICAL MEASUREMENT APPARATUS FOR A PROJECTION EXPOSURE SYSTEM - An optical measurement apparatus ( | 04-01-2010 |
20100079737 | SUPPORT FOR A COMPONENT OF AN OPTICAL DEVICE - The disclosure provides an arrangement for an optical device including a component of the optical device and a support structure supporting the component. The support structure includes at least one locking device connected to the component and including a first fixation device and an associated second fixation device. The first fixation device and the second fixation device are adapted to be, in a movable state, movable with respect to each other along a first degree of freedom and a second degree of freedom into a final position. The first fixation device and the second fixation device are further adapted to be, in a locked state, fixed in the final position by at least one locking device contacting the first fixation device and the second fixation device. In the movable state, the first fixation device and the second fixation device are movable, up to the final position, in a manner free from a mutual pre-stress resulting from a restoring force exerted by at least a part of one of the first fixation device and the second fixation device. | 04-01-2010 |
20100073655 | OPTICAL SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An optical system of a microlithographic projection exposure apparatus contains a module, which can be fitted in the optical system and removed from it as a unit. The module contains a cavity which can be completely filled with a liquid and hermetically sealed, and a concavely curved optical surface which bounds the cavity at the top during operation of the projection exposure apparatus. This makes it possible to fill the module outside the optical system. The module can be tilted there so that no air bubble, which prevents complete filling, can form below the concavely curved optical surface. | 03-25-2010 |
20100071720 | METHOD AND SYSTEM FOR REMOVING CONTAMINANTS FROM A SURFACE - Inside a vacuum chamber | 03-25-2010 |
20100067653 | OPTICAL ELEMENT FOR RADIATION IN THE EUV AND/OR SOFT X-RAY REGION AND AN OPTICAL SYSTEM WITH AT LEAST ONE OPTICAL ELEMENT - An optical element, especially a normal-incidence collector mirror, for radiation in the EUV and/or soft X-ray region of wavelengths is described. The element has a substrate, a multilayer coating with an optically active region, and a capacitor, having a first and a second capacitor electrode. At least one layer of the multilayer coating serves as the first capacitor electrode. At least one dielectric layer is provided between the two capacitor electrodes. Also described is an optical system with at least one optical element, having a first electrode arranged in the vicinity of the optical element. | 03-18-2010 |
20100066990 | IMAGING DEVICE WITH EXCHANGEABLE DIAPHRAGMS AND METHOD THEREFOR - The disclosure concerns a method for exchangeable introduction and/or exchange of diaphragms in an imaging device, such as an EUV projection exposure system for microlithography or a corresponding imaging device with a housing and at least one diaphragm, which is accommodated exchangeably in the housing and at least one transfer device with at least one receptacle, on or at which the diaphragm can be detachably arranged in order that it may be moved in or out of the objective space. At least one receptacle of the transfer device, on or at which the diaphragm can be detachably arranged, is an element of the diaphragm mount for positioning the diaphragm in the housing. | 03-18-2010 |
20100065252 | CONNECTING ARRANGEMENT FOR AN OPTICAL DEVICE - The disclosure relates to a connecting arrangement for an optical device, such as in microlithography. The connecting arrangement includes a first body, a second body and a connecting device. The first body contacts the second body in a laminar manner in a contact region. The connecting device is connected to the second body and contacts the first body via at least one contact unit. The connecting device is configured to generate a predefinable contact force in the contact region between the first body and the second body. The contact unit includes a plurality of separate contact elements. Each contact element is connected to the second body via a spring unit which can be elastically deformed to generate a contribution to the contact force | 03-18-2010 |
20100060988 | CORRECTION OF OPTICAL ELEMENTS BY CORRECTION LIGHT IRRADIATED IN A FLAT MANNER - The disclosure relates to a correction light device for the irradiation of optical elements of an optical arrangement, in particular a lens, such a microlithography lens having a correction light, which include at least one correction light source and at least one mirror arrangement that deflects the light from the correction light source in the beam path to the optical element such that at least part of at least one surface of at least one optical element of the optical arrangement are irradiated in a locally and/or temporally variable fashion. The correction light strikes the surface of the optical element at a flat angle such that the obtuse angle between the optical axis of the optical arrangement at the location of the optical element and the correction light beam is less than or equal to 105°. | 03-11-2010 |
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 |
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 |
20100045952 | MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A microlithographic projection exposure apparatus contains an illumination system ( | 02-25-2010 |
20100045948 | EUV LITHOGRAPHY APPARATUS AND METHOD FOR DETERMINING THE CONTAMINATION STATUS OF AN EUV-REFLECTIVE OPTICAL SURFACE - The invention relates to an EUV lithography apparatus with at least one EUV-reflective optical surface and a cavity ringdown reflectometer adapted to determine the contamination status of the EUV-reflective optical surface for at least one contaminating substance by determining the reflectivity of the EUV-reflective optical surface for radiation at a measuring wavelength (λm). The invention further relates to a method for determining the contamination status of at least one EUV-reflective optical surface arranged in an EUV lithography apparatus for at least one contaminating substance comprising determining the reflectivity of the EUV-reflective optical surface for radiation at a measuring wavelength (λm) using a cavity ringdown reflectometer. | 02-25-2010 |
20100039636 | ILLUMINATION OPTICS FOR A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - Illumination optics for a microlithographic projection exposure apparatus is used for illumination of an object field in the object plane with illumination light of a radiation source. The illumination optics has an optical beam influencing element which is divided into at least two beam influencing regions in order to generate various illumination modes for the object field which are independent of a light attenuation. The optical beam influencing element is displaceable between a first beam influencing position where a first one of the beam influencing regions is exposed to a bundle of the illumination light, and at least another beam influencing position where another one of the beam influencing regions is exposed to the bundle of the illumination light. Each of the beam influencing regions has a surface which is exposable to illumination light and has a long and a short side length, with the optical beam influencing element being displaceable perpendicular to the long side length. The result is an illumination optics which allows rapid switching between various illumination settings, preferably within fractions of a second and substantially without light loss. | 02-18-2010 |
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 |
20100034349 | METHOD FOR CLEANING AN EUV LITHOGRAPHY DEVICE, METHOD FOR MEASURING THE RESIDUAL GAS ATMOSPHERE AND THE CONTAMINATION AND EUV LITHOGRAPHY DEVICE - Components ( | 02-11-2010 |
20100033696 | METHOD AND APPARATUS FOR PRODUCING AN ELEMENT HAVING AT LEAST ONE FREEFORM SURFACE HAVING A HIGH ACCURACY OF FORM AND A LOW SURFACE ROUGHNESS - A method for producing an element having at least one arbitrarily freely formed surface (freeform surface) having a high accuracy of form and a low surface roughness. The freeform surface is obtained by at least one first processing step with a shaping material processing method in which at least an approximation to the desired freeform surface (target form) is effected, and at least one second step with a material processing method that smooths the surface, wherein at least during the second processing step of the smoothing material processing, the element ( | 02-11-2010 |
20100027107 | REFLECTIVE OPTICAL ELEMENT FOR EUV LITHOGRAPHY DEVICE - A reflective optical element exhibits an increase in the maximum reflectivity at operating wavelengths in the extreme ultraviolet or soft x-ray wavelength range. A first additional intermediate layer ( | 02-04-2010 |
20100027106 | REMOVING REFLECTIVE LAYERS FROM EUV MIRRORS - A method for removing at least one reflective layer ( | 02-04-2010 |
20100026978 | PROJECTION OBJECTIVE OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - The disclosure relates a projection objective of a microlithographic projection exposure apparatus, as well as a related microlithographic projection exposure apparatus and method. The projection objective can include a lens of a cubically crystalline material whose crystal orientation is oriented at an angle of at most 15° relative to the optical axis of the projection objective. The projection objective can also include a polarization correction element which has at least two subelements of birefringent, optically uniaxial material and having at least one respective aspheric surface. During use of the projection objective, the polarization correction element at least partially compensates for an intrinsic birefringence of the lens. | 02-04-2010 |
20100024865 | CONTINUOUS COATING INSTALLATION, METHODS FOR PRODUCING CRYSTALLINE SOLAR CELLS, AND SOLAR CELL - A continuous coating installation is disclosed. The installation includes a vacuum chamber having a supply opening for supplying a substrate to be coated and a discharge opening for discharging the coated substrate. The installation also includes a physical vapour deposition device for coating a surface of the substrate, and a laser crystallization system for simultaneously illuminating at least one sub-partial area of a currently coated partial area of the surface of the substrate with at least one laser beam. The installation further includes a transport device for transporting the substrate in a feedthrough direction from the supply opening to the discharge opening and for continuously or discontinuously moving the substrate during the coating thereof in the feedthrough direction. | 02-04-2010 |
20100020390 | CATADIOPTRIC PROJECTION OBJECTIVE WITH PUPIL CORRECTION - A catadioptric projection objective includes a plurality of optical elements arranged to image an off-axis object field arranged in an object surface onto an off-axis image field arranged in an image surface of the projection objective. The optical elements form: a first, refractive objective part that can generate a first intermediate image from radiation coming from the object surface and including a first pupil surface; a second objective part including at least one concave mirror that can image the first intermediate image into a second intermediate image and including a second pupil surface optically conjugated to the first pupil surface; and a third objective part that can image the second intermediate image onto the image surface and including a third pupil surface optically conjugated to the first and second pupil surface. The optical elements are arranged between the object surface and the first pupil surface form a Fourier lens group which includes a negative lens group arranged optically close to the first pupil surface. | 01-28-2010 |
20100020302 | PROJECTION EXPOSURE TOOL FOR MICROLITHOGRAPHY WITH A MEASURING APPARATUS AND METHOD FOR MEASURING AN IRRADIATION STRENGTH DISTRIBUTION - A projection exposure tool ( | 01-28-2010 |
20100014153 | CATADIOPTRIC PROJECTION OBJECTIVE - A catadioptric projection objective for imaging a pattern provided in an object plane of the projection objective onto an image plane of the projection objective has a first, refractive objective part for imaging the pattern provided in the object plane into a first intermediate image; a second objective part including at least one concave mirror for imaging the first intermediate imaging into a second intermediate image; and a third, refractive objective part for imaging the second intermediate imaging onto the image plane; wherein the projection objective has a maximum lens diameter D | 01-21-2010 |
20100014065 | METHOD FOR IMPROVING IMAGING PROPERTIES OF AN OPTICAL SYSTEM, AND SUCH AN OPTICAL SYSTEM - The disclosure relates to a method for improving optical properties of an optical system. The optical system has a plurality of optical elements for imaging a pattern onto a substrate that is arranged in an image plane of the optical system. The method includes detecting at least one time-dependent, at least partially reversible aberration of the optical system that is caused by heating of at least one of the optical elements. The method also includes at least partially correcting the aberration by replacing at least one optical element from the plurality of optical elements with at least one optical compensation element. The disclosure also relates to such an optical system with improved imaging properties. | 01-21-2010 |
20100007866 | METHOD FOR PRODUCING FACET MIRRORS AND PROJECTION EXPOSURE APPARATUS - The disclosure relates to methods for producing mirrors, in particular facet mirrors, and projection exposure apparatuses equipped with the mirrors. | 01-14-2010 |
20100002217 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - The disclosure relates to an illumination system of a microlithographic projection exposure apparatus. The illumination system can include a depolariser which in conjunction with a light mixing system disposed downstream in the light propagation direction at least partially causes effective depolarisation of polarised light impinging on the depolariser. The illumination system can also include a microlens array which is arranged upstream of the light mixing system in the light propagation direction. The microlens array can include a plurality of microlenses arranged with a periodicity. The depolariser can be configured so that a contribution afforded by interaction of the depolariser with the periodicity of the microlens array to a residual polarisation distribution occurring in a pupil plane arranged downstream of the microlens array in the light propagation direction has a maximum degree of polarisation of not more than 5%. | 01-07-2010 |
20090324174 | DEVICE CONSISTING OF AT LEAST ONE OPTICAL ELEMENT - An optical assembly comprises at least one optical element movable in at least two degrees of freedom and at least one actuator for adjusting the least one optical element; at least one sensor for sensing the position of the at least one element in at least two degrees of freedom and is characterised in that the at least one sensor is located at least substantially diagonally opposite to the least one actuator. | 12-31-2009 |
20090323044 | CATOPTRIC ILLUMINATION SYSTEM FOR MICROLITHOGRAPHY TOOL - In general, in one aspect, the invention features a system that includes an illumination system of a microlithography tool, the illumination system including a first component having a plurality of elements. During operation of the system, the elements direct radiation from a source along an optical path to an arc-shaped object field at an object plane of a projection objective, and at least one of the elements has a curved shape that is different from the arc-shape of the object field. | 12-31-2009 |
20090323043 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system of a microlithographic projection exposure apparatus can include at least one transmission filter which has a different transmittance at least at two positions and which is arranged between a pupil plane and a field plane). The transmittance distribution can be determined such that it has field dependent correcting effects on the ellipticity. In some embodiments the telecentricity and/or the irradiance uniformity is not affected by this correction. | 12-31-2009 |
20090323042 | OPTICAL SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An optical system, such as an illumination device or a projection objective of a microlithographic projection exposure apparatus, is disclosed. The optical system can include a polarization compensator which has at least one polarization-modifying partial element. The optical system can also include a manipulator by which the position of the at least one partial element can be altered. At least one operating mode of the optical system can be set in which the intensity, over a region which belongs to a plane perpendicular to the optical axis and which can be illuminated with light from the light source, does not exceed 20% of the maximum intensity in the plane, and the manipulator is arranged in the region. | 12-31-2009 |
20090316256 | CHROMATICALLY CORRECTED OBJECTIVE AND PROJECTION EXPOSURE APPARATUS INCLUDING THE SAME - An objective having a plurality of optical elements arranged to image a pattern from an object field in an object surface of the objective to an image field in an image surface region of the objective at an image-side numerical aperture NA>0.8 with electromagnetic radiation from a wavelength band around a wavelength λ, includes a number N of dioptric optical elements, each dioptric optical element i made from a transparent material having a normalized optical dispersion | 12-24-2009 |
20090316130 | EUV ILLUMINATION SYSTEM - An illumination system is used to illuminate a specified illumination field of an object surface with EUV radiation. The illumination system has an EUV source and a collector to concentrate the EUV radiation in the direction of an optical axis. A first optical element is provided to generate secondary light sources, and a second optical element is provided at the location of these secondary light sources, the second optical element being part of an optical device which includes further optical elements, and which images the first optical element into an image plane into the illumination field. Between the collector and the illumination field, a maximum of five reflecting optical elements are arranged. These optical elements reflect the main beam either grazingly or steeply. The optical axis, projected onto an illumination main plane, is deflected by more than 30° between a source axis portion and a field axis portion. In a first variant of the illumination system, at least an axis portion between at least two of the reflecting optical elements is inclined relative to the illumination main plane. In a second variant of the illumination system, the optical device, in addition to the second optical element includes precisely three further optical elements, i.e. a third optical element, a fourth optical element and a fifth optical element. In this second variant, the optical axis meets the third, fourth and fifth optical elements at an angle of incidence which is greater than 70°. This construction variants make possible either an increase of the EUV throughput of the illumination system for a given size, or a reduction of the size of the illumination system and thus of the associated projection exposure system for a given EUV throughput. | 12-24-2009 |
20090316128 | ILLUMINATION SYSTEM PARTICULARLY FOR MICROLITHOGRAPHY - There is provided a projection objective for a projection exposure apparatus that has a primary light source for emitting electromagnetic radiation having a chief ray with a wavelength≦193 nm. The projection objective includes an object plane, a first mirror, a second mirror, a third mirror, a fourth mirror; and an image plane. The object plane, the first mirror, the second mirror, the third mirror, the fourth mirror and the image plane are arranged in a centered arrangement around a common optical axis. The first mirror, the second mirror, the third mirror, and the fourth mirror are situated between the object plane and the image plane. The chief ray, when incident on an object situated in the object plane, in a direction from the primary light source, is inclined away from the common optical axis. | 12-24-2009 |
20090314931 | METHOD FOR REMOVING CONTAMINATION ON OPTICAL SURFACES AND OPTICAL ARRANGEMENT - A method and an optical arrangement for removing contamination on optical surfaces ( | 12-24-2009 |
20090306921 | SPECIFICATION, OPTIMIZATION AND MATCHING OF OPTICAL SYSTEMS BY USE OF ORIENTATIONAL ZERNIKE POLYNOMIALS - The present disclosure relates to specification, optimization and matching of optical systems by use of orientation Zernike polynomials. In some embodiments, a method for assessing the suitability of an optical system of a microlithographic projection exposure apparatus is provided. The method can include determining a Jones pupil of the optical system, at least approximately describing the Jones pupil using an expansion into orientation Zernike polynomials, and assessing the suitability of the optical system on the basis of the expansion coefficient of at least one of the orientation Zernike polynomials in the expansion. | 12-10-2009 |
20090303626 | HOUSING STRUCTURE - A housing structure has a frame structure | 12-10-2009 |
20090296204 | HIGH-NA PROJECTION OBJECTIVE WITH ASPHERIC LENS SURFACES - A projection objective for imaging a pattern provided in an object surface onto an image surface of the projection objective has an object-side imaging subsystem for creating a final intermediate image closest to the image surface from radiation coming from the object surface and an image-side imaging subsystem for directly imaging the final intermediate image onto the image surface. The image-side imaging subsystem includes at least one aspheric primary correcting lens having an aspheric primary correcting surface. The object-side imaging subsystem includes a secondary correcting group having at least one secondary correcting lens having an aspheric secondary correcting surface. Conditions involving maximum incidence angles and subaperture offsets at the correcting surfaces are given which should be observed to obtain sufficient aberration correction at very high image-side numerical apertures NA. | 12-03-2009 |
20090296066 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS, AND DEPOLARIZER - The disclosure relates to an exposure system of a microlithographic projection exposure apparatus that includes a light source which produces substantially linearly polarised light which is propagated along a light propagation direction. The system also includes a light mixing system and an effectively depolarising system which is arranged upstream of the light mixing system in the light propagation direction. The effectively depolarising system causes a variation in the polarisation direction over the light beam cross-section such that the light mixing effected by the light mixing system substantially produces light without a polarisation preferred direction in an illumination plane, wherein the effectively depolarising system has at least one element of optically active crystal material with at least one portion extending substantially wedge-shaped in the light propagation direction, wherein the optical crystal axis is substantially parallel to the light propagation direction. The disclosure also provides a depolarizer which can be used in an illumination system. | 12-03-2009 |
20090284831 | PROJECTION OBJECTIVE OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A projection objective of a microlithographic projection exposure apparatus has a high index refractive optical element (L | 11-19-2009 |
20090280437 | PROJECTION EXPOSURE METHODS AND SYSTEMS - Projection exposure methods, systems, sub-systems and components are disclosed. Methods can include performing a first exposure to image a first sub-pattern of the pattern, where the first sub-pattern includes a plurality of first features extending in a first direction and spaced apart essentially periodically at a predominant periodicity length P in a second direction perpendicular to the first direction. The first exposure can be performed using a multipolar illumination mode that includes at least one substantially dipolar intensity distribution having two illumination poles positioned on a pole orientation axis substantially parallel to the second direction and spaced apart from each other. The poles of the dipolar intensity distribution can each have an azimuthal width defined by a pole angle θ, and a pole area A | 11-12-2009 |
20090268189 | MASKS, LITHOGRAPHY DEVICE AND SEMICONDUCTOR COMPONENT - One problem of projection optics concerns pupil apodization which leads to imaging defects. As here proposed, the illumination system is configured to illuminate the mask inhomogeneously. As a result, inhomogeneities in reflectivity caused by the mask itself are at least partly counteracted. This compensation not only makes the apodization over the pupil become more symmetric but also makes the intensity variation smaller overall. | 10-29-2009 |
20090262443 | CATOPTRIC OBJECTIVES AND SYSTEMS USING CATOPTRIC OBJECTIVES - In general, in a first aspect, the invention features a system that includes a microlithography projection optical system. The microlithography projection optical system includes a plurality of elements arranged so that during operation the plurality of elements image radiation at a wavelength λ from an object plane to an image plane. At least one of the elements is a reflective element that has a rotationally-asymmetric surface positioned in a path of the radiation. The rotationally-asymmetric surface deviates from a rotationally-symmetric reference surface by a distance of about λ or more at one or more locations of the rotationally-asymmetric surface. | 10-22-2009 |
20090262324 | ILLUMINATION OPTICS FOR PROJECTION MICROLITHOGRAPHY AND RELATED METHODS - A microlithographic projection exposure apparatus ( | 10-22-2009 |
20090260654 | METHOD AND DEVICE FOR REPLACING OBJECTIVE PARTS - A method and a device for replacing objective parts, especially of a projection or illumination objective for microlithography in which an objective having an objective interior and objective parts provided therein is provided. At least one objective part is replaceably accommodated in the objective. Immediately prior to installation in the objective, the replaceable objective part is cleaned outside the objective interior in at least one cleaning room sealed off from the ambient atmosphere. Immediately after cleaning, the replaceable objective is installed in the objective without contact with the normal ambient atmosphere. | 10-22-2009 |
20090257049 | DEVICE AND METHOD FOR THE OPTICAL MEASUREMENT OF AN OPTICAL SYSTEM BY USING AN IMMERSION FLUID - A device for the optical measurement of an optical system, in particular an optical imaging system, is provided. The device includes at least one test optics component arranged on an object side or an image side of the optical system. An immersion fluid is adjacent to at least one of the test optics components. A container for use in this device, a microlithography projection exposure machine equipped with this device, and a method which can be carried out with the aid of this device are also provided. The device and method provide for optical measurement of microlithography projection objectives with high numerical apertures by using wavefront detection with shearing or point diffraction interferometry, or a Moiré measuring technique. | 10-15-2009 |
20090257040 | OPTICAL ELEMENT WITH MULTIPLE PRIMARY LIGHT SOURCES - The disclosure relates to an illumination system, such as an illumination system for use in microlithography. The illumination system can include an optical element with multiple primary light sources. The illumination system can illuminate a field in a field plane having a field contour. The illumination system can be configured so that each primary light source illuminates an area in the field plane that is smaller than a size of an area encircled by the field contour. | 10-15-2009 |
20090257032 | OPTICAL ELEMENT AND METHOD - The disclosure relates to an optical element configure to at least partial spatially resolve correction of a wavefront aberration of an optical system (e.g., a projection exposure apparatus for microlithography) to which optical radiation can be applied, as well as related systems and methods. | 10-15-2009 |
20090256075 | Charged Particle Inspection Method and Charged Particle System - The present invention relates to a charged particle system comprising: a charged particle source; a first multi aperture plate; a second multi aperture plate disposed downstream of the first multi aperture plate, the second multi aperture plate; a controller configured to selectively apply at least first and second voltage differences between the first and second multi aperture plates; wherein the charged particle source and the first and second multi aperture plates are arranged such that each of a plurality of charged particle beamlets traverses an aperture pair, said aperture pair comprising one aperture of the first multi aperture plate and one aperture of the second multi aperture plate, wherein plural aperture pairs are arranged such that a center of the aperture of the first multi aperture plate is, when seen in a direction of incidence of the charged particle beamlet traversing the aperture of the first multi aperture plate, displaced relative to a center of the aperture of the second multi aperture plate. The invention further pertains to a a particle-optical component configured to change a divergence of a set of charged particle beamlets and a charged particle inspection method comprising inspection of an object using different numbers of charged particle beamlets. | 10-15-2009 |
20090251677 | ILLUMINATING OPTICAL UNIT AND PROJECTION EXPOSURE APPARATUS FOR MICROLITHOGRAPHY - A projection exposure apparatus for microlithography has an illumination system with an EUV light source and an illumination optical unit to expose an object field in an object plane. A projection optical unit images the object field into an image field in an image plane. A pupil facet mirror in a plane of the illumination optical unit that coincides with a pupil plane of the projection optical unit or that is optically conjugate with respect thereto has a plurality of individual facets on which illumination light can impinge. A correction diaphragm is in or adjacent to a pupil plane of the projection optical unit or in a conjugate plane with respect thereto. The correction diaphragm screens the illumination of the entrance pupil of the projection optical unit so that at least some source images assigned to the individual facets of the pupil facet mirror in the entrance pupil of the projection optical unit are partly shaded by one and the same diaphragm edge. The form of the diaphragm edge is predefined for the partial shading of the source images assigned to the pupil facets in the entrance pupil of the projection optical unit for the correction of the telecentricity and the ellipticity of the illumination. | 10-08-2009 |
20090251673 | TRANSMITTING OPTICAL ELEMENT WITH LOW FOREIGN-ELEMENT CONTAMINATION - A transmitting optical element of polycrystalline material that includes crystallites of magnesium spinel MgAl | 10-08-2009 |
20090244509 | OPTICAL SYSTEM WITH AN EXCHANGEABLE, MANIPULABLE CORRECTION ARRANGEMENT FOR REDUCING IMAGE ABERRATIONS - The disclosure relates to an optical system, such as a projection exposure apparatus for semiconductor lithography, including a manipulable correction arrangement for reducing image aberrations. In some embodiments, the system includes at least one manipulator configured to reduce image aberrations. The manipulator can include at least one optical element which can be manipulated by at least one actuator. The manipulator can be formed in changeable fashion together with an actuator. | 10-01-2009 |
20090244508 | METHOD AND DEVICE FOR CONNECTING AN OPTICAL ELEMENT TO A FRAME - A method and a device for the material-fit connection of an optical element to a frame are disclosed. | 10-01-2009 |
20090237672 | Method and Apparatus for Interferometrically Measuring the Shape of a Test Object - The invention relates to a method and to an apparatus for interferometrically determining a deviation of an actual shape of an effective reflection surface ( | 09-24-2009 |
20090237636 | PROJECTION EXPOSURE METHOD AND PROJECTION EXPOSURE SYSTEM THEREFOR - In a projection exposure method, primary radiation having a center wavelength λ is generated and guided through an illumination system along an illumination path and through a projection system along a projection path. The center wavelength is varied within a wavelength variation range Δλ having a lower limit λ | 09-24-2009 |
20090233233 | OPTICAL ARRANGEMENT FOR IMMERSION LITHOGRAPHY WITH A HYDROPHOBIC COATING, AS WELL AS PROJECTION EXPOSURE APPARATUS COMPRISING THE SAME - An optical arrangement for immersion lithography, having at least one component ( | 09-17-2009 |
20090231707 | OPTICAL ARRANGEMENT, IN PARTICULAR PROJECTION EXPOSURE APPARATUS FOR EUV LITHOGRAPHY, AS WELL AS REFLECTIVE OPTICAL ELEMENT WITH REDUCED CONTAMINATION - An optical arrangement, in particular a projection exposure apparatus ( | 09-17-2009 |
20090231593 | Method of aligning an optical system - A method of manufacturing an optical system having plural optical elements mounted relative to each other on a mounting structure of the optical system comprises disposing the optical system in a beam path of an interferometer apparatus having an interferometer optics and a selectable hologram for shaping a beam of measuring light to be incident on surfaces of the optical elements of the optical system; selecting a first hologram of the interferometer apparatus and recording at least one first interference pattern generated by measuring light reflected from a surface of a first optical element; selecting a second hologram of the interferometer apparatus, wherein the second hologram is different from the first hologram, and recording at least one second interference pattern generated by measuring light reflected from a surface of a second optical element, which is different from the first optical element; and adjusting a position of the first optical element relative to the second optical element on the mounting structure based upon the first interference pattern and the second interference pattern. | 09-17-2009 |
20090231565 | OPTICAL SYSTEM AND METHOD OF USE - A method for improving imaging properties of an optical system and an optical system of this type having improved imaging properties are described. The optical system can have a plurality of optical elements. In some embodiments, an optical element is positioned and/or deformed by mechanical force action and by thermal action. In certain embodiments, one optical element is positioned and/or deformed by mechanical force action and another optical element is deformed by thermal action. | 09-17-2009 |
20090219497 | OPTICAL DEVICE WITH STIFF HOUSING - The disclosure relates to an optical device, such as for microlithography, that includes an optical module and a supporting structure. The disclosure also relates to an optical module that includes an optical element and a carrier structure for the optical element. the carrier structure can be connected to the optical element via at least one holding element. The carrier structure can be fixed to the supporting structure and produced, for example, from a material having a coefficient of thermal expansion α<0.2*10 | 09-03-2009 |
20090214986 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - The joint between the projection system element and its support comprises an inorganic layer or a direct bond and is thus liquid tight, which can prevent deformation by an immersion liquid. The joint can be made either warm or cold. Solders, glue, and glue protection can all be used in the formation of this joint. In an embodiment, the elements and its support are made of quartz. | 08-27-2009 |
20090213356 | ILLUMINATION SYSTEM FOR A MICROLITHOGRAPHY PROJECTION EXPOSURE APPARATUS - An illumination system for a microlithographic projection exposure apparatus includes an EUV light source which generates an emission beam of linearly polarized EUV illumination light. An illumination optics guides the emission beam along an optical axis which causes an illumination field in a reticle plane to be illuminated by the emission beam. The illumination system also includes an illumination subunit of the illumination system. The illumination subunit includes at least the EUV light source and a polarization setting device for setting a defined polarization of the EUV emission beam of the illumination subunit. | 08-27-2009 |
20090213352 | METHOD FOR IMPROVING THE IMAGING PROPERTIES OF AN OPTICAL SYSTEM, AND SUCH AN OPTICAL SYSTEM - The disclosure relates to a method for improving the imaging properties of an optical system, such as a projection objective for microlithography. The disclosure also relates to an optical system, such as a projection objective for microlithography. | 08-27-2009 |
20090213342 | PROJECTION EXPOSURE APPARATUS FOR MICROLITHOGRAPHY - The invention relates to a projection exposure apparatus with a projection objective that serves to project a structure onto a substrate coated with a light-sensitive resist, wherein an immersion liquid is arranged between an optical element of the projection objective and the resist-coated substrate. As an immersion liquid saturated cyclic or polycyclic hydrocarbons can be used, such as for example cyclo-alkanes comprising up to 12 carbon atoms, saturated polycyclic hydrocarbons with 2 to 6 rings, bridged polycyclic hydrocarbons, cyclic ethers and derivatives of these substances. | 08-27-2009 |
20090207511 | ASSEMBLY FOR ADJUSTING AN OPTICAL ELEMENT - An assembly for fixation or adjusting of an optical element ( | 08-20-2009 |
20090207487 | METHOD OF MANUFACTURING A PROJECTION OBJECTIVE AND PROJECTION OBJECTIVE - The disclosure relates to a method of manufacturing a projection objective, and a projection objective, such as a projection objective configured to be used in a microlithographic process. The method can include defining an initial design for the projection objective and optimizing the design using a merit function. The method can be used in the manufacturing of projection objectives which may be used in a microlithographic process of manufacturing miniaturized devices. | 08-20-2009 |
20090207396 | OPTICAL SYSTEM FOR SEMICONDUCTOR LITHOGRAPHY - An optical system for semiconductor lithography including a plurality of optical components, as well as related components and methods, are disclosed. The apparatus can include an optical component that can be moved by a distance along a straight line within a time of between 5 ms and 500 ms. The straight line can have a polar and azimuth angle of between 0° and 90°, and a distance between the straight line and an optical axis of the apparatus being less than a cross-sectional dimension of a projection exposure beam bundle of the projection exposure apparatus. The apparatus can also include a guide unit configured to guide the optical component. The apparatus can further include a drive unit configured to drive the optical component via drive forces so that torques generated by inertial forces of the optical component and of optional components concomitantly moved with the optical component, and the torques generated by the drive forces, which act on the guide unit, compensate for one another to less than 10%. | 08-20-2009 |
20090201481 | OPTICAL ELEMENT AND ILLUMINATION OPTICS FOR MICROLITHOGRAPHY - The disclosure relates to an optical element and illumination optics for microlithography. The optical element can be configured to influence a nominal beam angle, preset over a beam cross-section, of a radiation beam hitting the optical element. Moreover, the disclosure relates to an illumination optics for the microlithography with at least one such optical element and an illumination system for the microlithography with such an illumination optics. | 08-13-2009 |
20090201478 | TRANSMITTING OPTICAL ELEMENT AND OBJECTIVE FOR A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A transmitting optical element ( | 08-13-2009 |
20090197211 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - Liquid is supplied to a space between the projection system of a lithographic apparatus and a substrate. A flow of gas towards a vacuum inlet prevents the humid gas from escaping to other parts of the lithographic apparatus. This may help to protect intricate parts of the lithographic apparatus from being damaged by the presence of humid gas. | 08-06-2009 |