Patents by Inventor Helmut Haidner
Helmut Haidner has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20080231862Abstract: A device and method for the interferometric measurement of phase masks, particularly from lithography. Radiation passing through a coherence mask is brought to interference by a diffraction grating. A phase mask is arranged in or near the pupil plane of the first imaging optics which can be positioned exactly in the x-y direction by which interferograms are generated which are phase-shifted in the x-y direction by translational displacement of the coherence mask or of the diffraction grating. The interferograms are imaged onto the spatially resolving detector by second imaging optic and the phase and transmission functions of the phase mask are determined by an evaluation unit. The invention can, of course, generally be applied to planar phase objects, such as biological structures, for example, points of establishment with respect to an interference microscope.Type: ApplicationFiled: August 31, 2006Publication date: September 25, 2008Applicant: CARL ZEISS SMS GMBHInventors: Helmut Haidner, Ulrich Wegmann
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Patent number: 7417745Abstract: Device and method for wavefront measurement of an optical imaging system by means of phase-shifting interferometry, having a mask structure (6a) to be arranged on the object side, and/or a grating structure (7a) to be arranged on the image side. The object-side mask structure includes one or more one-dimensional mask structure patterns, and the image-side grating structure includes one or more two-dimensional grating structure patterns. Alternatively, conversely, the mask structure includes one or more two-dimensional patterns, and the grating structure includes one or more one-dimensional patterns.Type: GrantFiled: April 5, 2004Date of Patent: August 26, 2008Assignee: Carl Zeiss SMT AGInventors: Helmut Haidner, Wolfgang Emer, Rainer Hoch, Ulrich Wegmann, Martin Schriever, Markus Goeppert
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Patent number: 7408652Abstract: 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.Type: GrantFiled: March 16, 2005Date of Patent: August 5, 2008Assignee: Carl Zeiss SMT AGInventors: Ulrich Wegmann, Uwe Schellhorn, Joachim Stuehler, Helmut Haidner, Albrecht Ehrmann, Martin Schriever, Markus Gobppert
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Publication number: 20080144043Abstract: An arrangement for microlithography includes a projection objective having a plurality of optical elements; an aberration control circuit controlling imaging properties of the projection objective; and at least one operating element associated with an optical element of the projection objective to control imaging properties of the projection objective in response to operating signals generated by the control circuit.Type: ApplicationFiled: February 15, 2008Publication date: June 19, 2008Applicant: Carl Zeiss SMT AGInventors: Ulrich WEGMANN, Helmut Haidner, Martin Schriever
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Patent number: 7388696Abstract: A wavefront source having a wavefront formation structure (4a) and a diffuser with a scattering structure (2b) in the beam path in front of or at the level of the wavefront formation structure; also a diffuser configured to be used therefor, and a wavefront sensor equipped therewith, as well as a corresponding projection exposure apparatus. The diffuser has a diffractive computer-generated hologram (CGH) scattering structure with a predetermined angular scattering profile. The wavefront source includes such a diffuser and/or a focusing element with a reflecting diffractive focusing structure (3a) in the beam path at the level of the scattering structure or between the scattering structure (2b) and the wavefront formation structure (4a). The disclosed structures are used, e.g., in the wavefront measurement of projection objectives in microlithography projection exposure apparatuses in the EUV wavelength range.Type: GrantFiled: October 11, 2005Date of Patent: June 17, 2008Assignee: Carl Zeiss SMT AGInventors: Martin Schriever, Helmut Haidner
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Publication number: 20080130012Abstract: A device, a microlithography projection exposure system, and a method for the determination of imaging errors of an optical imaging system using a radiation-superposition measuring technique which operates with lateral phase offset, having an optical element arranged on the object side of the imaging system, having a first periodic structure on the object side with a predetermined periodicity direction, an optical element arranged on the image side of the imaging system, having a second periodic structure on the image side with a periodicity direction corresponding to the first periodic structure, and a detector to detect the superposition pattern of an image of the first periodic structure with the second periodic structure.Type: ApplicationFiled: November 26, 2007Publication date: June 5, 2008Inventors: Ulrich WEGMANN, Helmut Haidner, Gordon Doering
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Patent number: 7336371Abstract: A device and a method for wavefront measurement of an optical system (7), in particular by an interferometric measurement technique. A dynamic range correction element (12, 12a) is arranged in the beam path upstream of the detector arrangement (11) and is designed such that the variation in the spatially dependent characteristic of a phase of the wavefront forming the interference pattern is kept below a prescribed limit value throughout a detection area. In addition or as an alternative, a set of several diffraction structures of different period length can be used with a shearing interferometry technique and/or a set of several pairs of a reference pinhole and a signal passage opening with different hole spacings can be used with a point diffraction interferometry technique for different sub-areas of the detection area. A remaining distortion error can be taken into account by determining a corresponding distortion transformation and applying the inverse distortion transformation.Type: GrantFiled: January 29, 2004Date of Patent: February 26, 2008Assignee: Carl Zeiss SMT AGInventors: Helmut Haidner, Markus Goeppert, Martin Schriever, Ulrich Wegmann
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Patent number: 7333216Abstract: An apparatus for wavefront detection includes a wavefront source for the production of a wavefront, an optical system transforming the wavefront, a diffraction grating through which the transformed wavefront passes, and a spatially resolving detector following the diffraction grating. The wavefront source has a two-dimensional structure.Type: GrantFiled: February 23, 2001Date of Patent: February 19, 2008Assignee: Carl Zeiss SMT AGInventors: Ulrich Wegmann, Helmut Haidner, Martin Schriever
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Publication number: 20080037905Abstract: A method and an apparatus for determining the influencing of the state of polarization of optical radiation by an optical system under test, wherein radiation with a defined entrance state of polarization is directed onto the optical system, the exit-side state of polarization is measured, and the influencing of the state of polarization is determined by the optical system with the aid of evaluation of the exit state of polarization with reference to the entrance state of polarization. An analyser arrangement which can be used for this purpose is also disclosed. The method and the apparatus are used, e.g., to determine the influencing of the state of polarization of optical radiation by an optical imaging system of prescribable aperture, the determination being performed in a pupil-resolved fashion.Type: ApplicationFiled: October 18, 2007Publication date: February 14, 2008Applicant: CARL ZEISS SMT AGInventors: Ulrich Wegmann, Michael Hartl, Markus Mengel, Manfred Dahl, Helmut Haidner, Martin Schriever, Michael Totzeck
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Patent number: 7301646Abstract: A device, a microlithography projection exposure system, and a method for the determination of imaging errors of an optical imaging system using a radiation-superposition measuring technique which operates with lateral phase offset, having an optical element arranged on the object side of the imaging system, having a first periodic structure on the object side with a predetermined periodicity direction, an optical element arranged on the image side of the imaging system, having a second periodic structure on the image side with a periodicity direction corresponding to the first periodic structure, and a detector to detect the superposition pattern of an image of the first periodic structure with the second periodic structure.Type: GrantFiled: January 21, 2005Date of Patent: November 27, 2007Assignee: Carl Zeiss SMT AGInventors: Ulrich Wegmann, Helmut Haidner, Gordon Doering
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Patent number: 7286245Abstract: A method and an apparatus for determining the influencing of the state of polarization of optical radiation by an optical system under test, wherein radiation with a defined entrance state of polarization is directed onto the optical system, the exit-side state of polarization is measured, and the influencing of the state of polarization is determined by the optical system with the aid of evaluation of the exit state of polarization with reference to the entrance state of polarization. An analyser arrangement which can be used for this purpose is also disclosed. The method and the apparatus are used, e.g., to determine the influencing of the state of polarization of optical radiation by an optical imaging system of prescribable aperture, the determination being performed in a pupil-resolved fashion.Type: GrantFiled: July 29, 2003Date of Patent: October 23, 2007Assignee: Carl Zeiss SMT AGInventors: Ulrich Wegmann, Michael Hartl, Markus Mengel, Manfred Dahl, Helmut Haidner, Martin Schriever, Michael Totzeck
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Publication number: 20070046912Abstract: A measuring device for interferometric measurement of an optical imaging system that is provided for projecting a useful pattern, provided on a mask, into the image plane of the imaging system, includes a wavefront source for generating at least one wavefront traversing the imaging system; a diffraction grating, arrangeable downstream of the imaging system, for interacting with the wavefront reshaped by the imaging system; and a spatially resolving detector, assigned to the diffraction grating, for acquiring interferometric information. The wavefront source has at least one measuring pattern that is formed on the mask in addition to the useful pattern. The useful pattern may represent the structure of a layer of a semiconductor component in a specific fabrication step. The measuring pattern may be formed as a coherence-forming structure periodic in one or two dimensions.Type: ApplicationFiled: September 1, 2006Publication date: March 1, 2007Inventors: Martin Schriever, Ulrich Wegmann, Helmut Haidner
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Patent number: 7158237Abstract: A measuring device for interferometric measurement of an optical imaging system that is provided for projecting a useful pattern, provided on a mask, into the image plane of the imaging system, includes a wavefront source for generating at least one wavefront traversing the imaging system; a diffraction grating, arrangeable downstream of the imaging system, for interacting with the wavefront reshaped by the imaging system; and a spatially resolving detector, assigned to the diffraction grating, for acquiring interferometric information. The wavefront source has at least one measuring pattern that is formed on the mask in addition to the useful pattern. The useful pattern may represent the structure of a layer of a semiconductor component in a specific fabrication step. The measuring pattern may be formed as a coherence-forming structure periodic in one or two dimensions.Type: GrantFiled: October 15, 2004Date of Patent: January 2, 2007Assignee: Carl Zeiss SMT AGInventors: Martin Schriever, Ulrich Wegmann, Helmut Haidner
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Publication number: 20060139583Abstract: A method of manufacturing a miniaturized device comprises disposing a patterning structure to be imaged in a region of an object plane of an imaging optics of the projection exposure system; disposing a substrate carrying a resist in a region of an image plane of the imaging optics and exposing portions of the substrate with images of the patterning structure using the projection exposure system; maintaining a flow of an immersion liquid to and from a space between the substrate and a front lens of the imaging optics closest to the substrate; measuring a physical property which is indicative of at least one of a refractive index of the immersion liquid and a change of the refractive index of the immersion liquid over time, wherein the physical property is measured using a beam of measuring light interacting with the immersion liquid; adjusting at least one optical property of the projection exposure system based on the measured physical property; exposing further portions of the substrate with images of the pType: ApplicationFiled: November 18, 2005Publication date: June 29, 2006Applicant: CARL ZEISS SMT AGInventors: Ulrich Wegmann, Helmut Haidner
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Publication number: 20060109533Abstract: A wavefront source having a wavefront formation structure (4a) and a diffuser with a scattering structure (2b) in the beam path in front of or at the level of the wavefront formation structure; also a diffuser configured to be used therefor, and a wavefront sensor equipped therewith, as well as a corresponding projection exposure apparatus. The diffuser has a diffractive computer-generated hologram (CGH) scattering structure with a predetermined angular scattering profile. The wavefront source includes such a diffuser and/or a focusing element with a reflecting diffractive focusing structure (3a) in the beam path at the level of the scattering structure or between the scattering structure (2b) and the wavefront formation structure (4a). The disclosed structures are used, e.g., in the wavefront measurement of projection objectives in microlithography projection exposure apparatuses in the EUV wavelength range.Type: ApplicationFiled: October 11, 2005Publication date: May 25, 2006Inventors: Martin Schriever, Helmut Haidner
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Publication number: 20050264827Abstract: A measuring device for interferometric measurement of an optical imaging system that is provided for projecting a useful pattern, provided on a mask, into the image plane of the imaging system, includes a wavefront source for generating at least one wavefront traversing the imaging system; a diffraction grating, arrangeable downstream of the imaging system, for interacting with the wavefront reshaped by the imaging system; and a spatially resolving detector, assigned to the diffraction grating, for acquiring interferometric information. The wavefront source has at least one measuring pattern that is formed on the mask in addition to the useful pattern. The useful pattern may represent the structure of a layer of a semiconductor component in a specific fabrication step. The measuring pattern may be formed as a coherence-forming structure periodic in one or two dimensions.Type: ApplicationFiled: October 15, 2004Publication date: December 1, 2005Inventors: Martin Schriever, Ulrich Wegmann, Helmut Haidner
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Publication number: 20050243328Abstract: A device and a method for the optical measurement of an optical system (1), in particular an optical imaging system. The device includes one or more object-side test optics components (2a, 2b) arranged in front of the optical system to be measured, and/or one or more image-side test optics components (3, 4, 5) arranged behind the optical system to be measured. A container for use in such a device, a microlithography projection exposure machine equipped with such a device, and a method which can be carried out with the aid of this device are also disclosed. An immersion fluid is introduced adjacent to at least one of the one or more object-side test optics components and/or image-side test optics components. Such device and method provide for optical measurement by microlithography projection objectives of high numerical aperture using wavefront detection with shearing or point diffraction interferometry or a Moiré measuring technique.Type: ApplicationFiled: March 16, 2005Publication date: November 3, 2005Inventors: Ulrich Wegmann, Uwe Schellhorn, Joachim Stuehler, Helmut Haidner, Albrecht Ehrmann, Martin Schriever, Markus Gobppert
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Publication number: 20050190376Abstract: A device, a microlithography projection exposure system, and a method for the determination of imaging errors of an optical imaging system using a radiation-superposition measuring technique which operates with lateral phase offset, having an optical element arranged on the object side of the imaging system, having a first periodic structure on the object side with a predetermined periodicity direction, an optical element arranged on the image side of the imaging system, having a second periodic structure on the image side with a periodicity direction corresponding to the first periodic structure, and a detector to detect the superposition pattern of an image of the first periodic structure with the second periodic structure.Type: ApplicationFiled: January 21, 2005Publication date: September 1, 2005Inventors: Ulrich Wegmann, Helmut Haidner, Gordon Doering
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Publication number: 20050007602Abstract: Device and method for wavefront measurement of an optical imaging system by means of phase-shifting interferometry, having a mask structure (6a) to be arranged on the object side, and/or a grating structure (7a) to be arranged on the image side. The object-side mask structure includes one or more one-dimensional mask structure patterns, and the image-side grating structure includes one or more two-dimensional grating structure patterns. Alternatively, conversely, the mask structure includes one or more two-dimensional patterns, and the grating structure includes one or more one-dimensional patterns.Type: ApplicationFiled: April 5, 2004Publication date: January 13, 2005Inventors: Helmut Haidner, Wolfgang Emer, Rainer Hoch, Ulrich Wegmann, Martin Schriever, Markus Goeppert
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Publication number: 20040114150Abstract: A method and an apparatus for determining the influencing of the state of polarization of optical radiation by an optical system under test, wherein radiation with a defined entrance state of polarization is directed onto the optical system, the exit-side state of polarization is measured, and the influencing of the state of polarization is determined by the optical system with the aid of evaluation of the exit state of polarization with reference to the entrance state of polarization. An analyser arrangement which can be used for this purpose is also disclosed. The method and the apparatus are used, e.g., to determine the influencing of the state of polarization of optical radiation by an optical imaging system of prescribable aperture, the determination being performed in a pupil-resolved fashion.Type: ApplicationFiled: July 29, 2003Publication date: June 17, 2004Applicant: CARL ZEISS SMT AGInventors: Ulrich Wegmann, Michael Hartl, Markus Mengel, Manfred Dahl, Helmut Haidner, Martin Schriever, Michael Totzeck