| Patent application number | Description | Published |
|---|
| 20080218725 | DEVICE AND METHOD FOR INFLUENCING THE POLARIZATION DISTRIBUTION IN AN OPTICAL SYSTEM - The disclosure relates to a device and a method for influencing the polarization distribution in an optical system, in particular in a microlithographic projection exposure apparatus. A device according to the disclosure includes a plurality of polarization-influencing optical elements which are arranged in a common plane in such a way that they can be moved independently of each other. | 09-11-2008 |
| 20080225921 | Projection Exposure System, Beam Delivery System and Method of Generating a Beam of Light - A beam delivery system of a projection exposure system comprises a laser generating a beam of laser light from a plurality of longitudinal laser modes in a cavity, wherein light generated by a single longitudinal laser mode has an average line width λ | 09-18-2008 |
| 20080239273 | Illumination system and polarizer for a microlithographic projection exposure apparatus - An illumination system for illuminating a reticle that moves along a scanning direction in a microlithographic projection exposure apparatus has an optical axis and an optical component producing an illumination angle distribution of the projection light. In accordance with the illumination angle distribution, a plurality of poles is illuminated in a pupil plane of the illumination system. The poles form an arrangement that is only mirror-symmetrical with respect to an axis that is orthogonal to the optical axis of the illumination, but neither parallel nor perpendicular to the scanning direction. | 10-02-2008 |
| 20080266540 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - The disclosure relates an illumination system that has an optical axis and a polarization-influencing arrangement. The arrangement can include a first wedge plate with a first wedge direction which extends perpendicularly to the optical axis in the direction of a maximum change in thickness of the first wedge plate, and a second wedge plate with a second wedge direction which extends perpendicularly to the optical axis in the direction of a maximum change in thickness of the second wedge plate. The first wedge plate and the second wedge plate can be arranged rotatably about the optical axis. The first wedge plate and the second wedge plate can be respectively made from birefringent crystal material having a respective optical crystal axis. In a starting position of the arrangement in which the first wedge direction and the second wedge direction extend in mutually parallel relationship, the optical crystal axis of the first wedge plate and the optical crystal axis of the second wedge plate can be oriented at an angle of 45°±3° relative to each other. One of the two crystal axes can be oriented perpendicularly or parallel to the preferred polarization direction of the light impinging on the arrangement. | 10-30-2008 |
| 20080316459 | POLARIZATION-MODULATING OPTICAL ELEMENT - The invention relates to a projection system, comprising a radiation source, an illumination system operable to illuminate a structured mask, and a projection objective for projecting an image of the mask structure onto a light-sensitive substrate, wherein said projection system comprises an optical system comprising an optical axis or a preferred direction given by the direction of a light beam propagating through the optical system; the optical system comprising a temperature compensated polarization-modulating optical element described by coordinates of a coordinate system, wherein one preferred coordinate of the coordinate system is parallel to the optical axis or parallel to said preferred direction; said temperature compensated polarization-modulating optical element comprising a first and a second polarization-modulating optical element, the first and/or the second polarization-modulating optical element comprising solid and/or liquid optically active material and a profile of effective optical thickness, wherein the effective optical thickness varies at least as a function of one coordinate different from the preferred coordinate of the coordinate system, in addition or alternative the first and/or the second polarization-modulating optical element comprises solid and/or liquid optically active material, wherein the effective optical thickness is constant as a function of at least one coordinate different from the preferred coordinate of the coordinate system; wherein the first polarization-modulating optical element comprises optically active material with a specific rotation of opposite sign compared to the optically active material of the second polarization-modulating optical element. | 12-25-2008 |
| 20080316598 | POLARIZATION-MODULATING OPTICAL ELEMENT - A polarization-modulating optical element consisting of an optically active crystal material has a thickness profile where the thickness, as measured in the direction of the optical axis, varies over the area of the optical element. The polarization-modulating optical element has the effect that the plane of oscillation of a first linearly polarized light ray and the plane of oscillation of a second line early polarized light ray are rotated, respectively, by a first angle of rotation and a second angle of rotation, with the first angle of rotation and the second angle of rotation being different from each other. | 12-25-2008 |
| 20090002675 | POLARIZATION-MODULATING OPTICAL ELEMENT - A polarization-modulating optical element consisting of an optically active crystal material has a thickness profile where the thickness, as measured in the direction of the optical axis, varies over the area of the optical element. The polarization-modulating optical element has the effect that the plane of oscillation of a first linearly polarized light ray and the plane of oscillation of a second linearly polarized light ray are rotated, respectively, by a first angle of rotation and a second angle of rotation, with the first angle of rotation and the second angle of rotation being different from each other. | 01-01-2009 |
| 20090009744 | ILLUMINATION SYSTEM FOR A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system for a microlithographic projection exposure apparatus ( | 01-08-2009 |
| 20090021719 | 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. | 01-22-2009 |
| 20090027646 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - The disclosure provides an illumination system of a microlithographic projection exposure apparatus, as well as related methods and components. In some embodiments, the illumination system includes an optical element configured so that, when a linearly polarised entry beam which has an angle spectrum is incident on the first optical element, a maximum aperture angle of the entry beam at the first optical element is not more than 35 mrad. A component, which is rotationally symmetric about an optical axis of the system, of a birefringence present in the illumination system can be at least partially compensated by the first optical element. | 01-29-2009 |
| 20090040496 | 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. | 02-12-2009 |
| 20090115991 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - The disclosure relates to an illumination system of a microlithographic projection exposure apparatus, such as a an illumination system with which it is possible to set up an illumination angle-dependent polarisation state of the projection light incident on a mask, as well as related systems, components and methods. | 05-07-2009 |
| 20090135395 | 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%. | 05-28-2009 |
| 20090135397 | ILLUMINATION SYSTEM OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An illumination system of a microlithographic projection exposure apparatus, as well as related systems, methods and components are disclosed. The illumination system can include a polarization manipulator configured to variably adjust a change in the polarization state of light impinging thereon. The illumination system can also include a mirror arrangement having a plurality of mirror elements that are displaceable independently of each other to alter an angle distribution of the light reflected by the mirror arrangement. A change in the intensity distribution caused by the polarization manipulator in a plane of the projection exposure apparatus can be at least partially compensated by the mirror arrangement. | 05-28-2009 |
| 20090195766 | ILLUMINATION SYSTEM OR PROJECTION OBJECTIVE OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - The disclosure relates to an optical system, such as an illumination system or a projection objective of a microlithographic projection exposure apparatus, including such an optical system having a polarization-influencing optical arrangement which permits enhanced flexibility in affording a desired polarization distribution. | 08-06-2009 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 20100283984 | MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A projection exposure apparatus for microlithography comprises illumination optics for illuminating object field points of an object field in an object plane is disclosed. The illumination optics have, for each object field point of the object field, an exit pupil associated with the object point, where sin(γ) is a greatest marginal angle value of the exit pupil. The illumination optics include a multi-mirror array that includes a plurality of mirrors to adjust an intensity distribution in exit pupils associated to the object field points. The illumination optics further contain at least one optical system to temporally stabilize the illumination of the multi-mirror array so that, for each object field point, the intensity distribution in the associated exit pupil deviates from a desired intensity distribution in the associated exit pupil in the case of a centroid angle value sin(β) by less than 2% expressed in terms of the greatest marginal angle value sin(γ) of the associated exit pupil and/or, in the case of ellipticity by less than 2%, and/or in the case of a pole balance by less than 2%. | 11-11-2010 |
| 20100283985 | MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - A projection exposure apparatus for microlithography comprises illumination optics for illuminating object field points of an object field in an object plane is disclosed. The illumination optics have, for each object field point of the object field, an exit pupil associated with the object point, where sin(γ) is a greatest marginal angle value of the exit pupil. The illumination optics include a multi-mirror array that includes a plurality of mirrors to adjust an intensity distribution in exit pupils associated to the object field points. The illumination optics further contain at least one optical system to temporally stabilize the illumination of the multi-mirror array so that, for each object field point, the intensity distribution in the associated exit pupil deviates from a desired intensity distribution in the associated exit pupil in the case of a centroid angle value sin(β) by less than 2% expressed in terms of the greatest marginal angle value sin(γ) of the associated exit pupil and/or, in the case of ellipticity by less than 2%, and/or in the case of a pole balance by less than 2%. | 11-11-2010 |
| 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 |
| 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 |
| 20110063598 | ILLUMINATION OPTICS FOR EUV MICROLITHOGRAPHY AND RELATED SYSTEM AND APPARATUS - An illumination optics for EUV microlithography guides an illumination light bundle from a radiation source to an object field with an extension ratio between a longer field dimension and a shorter field dimension, where the ratio is considerably greater than 1. A field facet mirror has a plurality of field facets that set defined illumination conditions in the object field. A following optics downstream of the field facet mirror transmits the illumination light into the object field. The following optics includes a pupil facet mirror with a plurality of pupil facets. The field facets are in each case individually allocated to the pupil facets so that portions of the illumination light bundle impinging upon in each case one of the field facets are guided on to the object field via the associated pupil facet. The field facet mirror not only includes a plurality of basic illumination field facets which provide a basic illumination of the object field via associated basic illumination pupil facets, but also includes a plurality of correction illumination field facets which provide for a correction of the illumination of the object field via associated correction illumination pupil facets. The result is an illumination optics which allows unwanted variations of illumination parameters, for instance an illumination intensity distribution or an illumination angle distribution, to be corrected across the object field. | 03-17-2011 |
| 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 |
| 20110122382 | METHOD FOR MODIFYING A POLARIZATION DISTRIBUTION IN A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS, AND MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - The disclosure relates to a method for modifying a polarization distribution in a microlithographic projection exposure apparatus, and to a microlithographic projection exposure apparatus. The projection exposure apparatus has an illumination device and a projection objective. The illumination device has an optical axis and a correction arrangement having a lambda/4 plate arranged rotatably about the optical axis and/or a lambda/2 plate arranged rotatably about the optical axis. The method includes determining a polarization distribution in a predetermined plane of the projection exposure apparatus, and rotating the lambda/4 plate and/or the lambda/2 plate about the optical axis so that a local variation of the polarization distribution is reduced after rotation in comparison with the state before the rotating. | 05-26-2011 |
| 20110122392 | MICROLITHOGRAPHY ILLUMINATION SYSTEM AND MICROLITHOGRAPHY ILLUMINATION OPTICAL UNIT - An illumination optical unit for microlithography illuminates an object field with illumination light. The unit includes a first facet mirror that has a plurality of first facets, and a second facet mirror that has a plurality of second facets. The unit has facet pairs which include respectively a facet of the first facet mirror and a facet of the second facet mirror which predefine a plurality of illumination channels for illuminating the object field. At least some of the illumination channels have in each case an assigned polarization element for predefining an individual polarization state of the illumination light guided in the respective illumination channel. | 05-26-2011 |
| 20110149261 | OPTICAL SYSTEM, IN PARTICULAR OF A MICROLITHOGRAPHIC PROJECTION EXPOSURE APPARATUS - An optical system, in particular of a microlithographic projection exposure apparatus, includes an optical system axis and a polarization-influencing optical arrangement, wherein said arrangement has a polarization-influencing optical element which includes an optically active material having an optical crystal axis and is of a thickness profile which varies in the direction of said optical crystal axis, and a position manipulator for manipulation of the position of said polarization-influencing optical element, wherein the polarization manipulator is adapted to cause rotation of the polarization-influencing optical element about an axis of rotation, wherein said axis of rotation is arranged at an angle of 90°±5° relative to the optical system axis. | 06-23-2011 |
