Patents by Inventor Gerhard Kunkel
Gerhard Kunkel 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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Patent number: 6842222Abstract: A projected image is formed during a material substrate. A photolithographic mask is illuminated with substantially coherent light at an oblique angle of incidence with respect to a surface of the photolithographic mask. The photolithographic mask includes a substantially transparent mask substrate and one or more lines and spaces patterns formed on the mask substrate and having a periodicity P. The mask substrate includes at least one phase shifting region. At least part of the light that is transmitted through the photolithographic mask is collected using one or more projection lenses which project the portion of the transmitted light onto the material substrate. The material substrate is disposed substantially parallel with, but at a distance from, a focal plane of the projection lens system.Type: GrantFiled: April 4, 2003Date of Patent: January 11, 2005Assignee: Infineon Technologies AGInventors: Gerhard Kunkel, Shahid Butt, Alan Thomas, Juergen Preuninger
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Publication number: 20040256356Abstract: The invention provides a photolithographic mask for the exposure of radiation-sensitive resist layers on semi-conductor substrates, the mask having at least one radiation-transmissive substrate and at least one radiation-opaque layer and/or at least one half-tone layer. The radiation-opaque layer and/or the half-tone layer are used to provide main features, the main features being formed in such a way that the pattern formed by the main features is transferred into the resist layer when irradiated, and the radiation-opaque layer and/or the half-tone layer are used to provide assist features, the assist features being formed in such a way that the pattern formed by the assist features is not transferred into the resist layer when irradiated.Type: ApplicationFiled: August 13, 2004Publication date: December 23, 2004Inventors: Lothar Bauch, Gerhard Kunkel, Hermann Sachse, Helmut Wurser
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Publication number: 20040229134Abstract: The relative surface area sizes of portions having distinct phase-shift and transmission of light of a pattern on a phase-shift mask substantially obey the condition that the product of surface area and transmission of the electrical field strength is the same for all of the portions. Then, frequency doubling occurs due to vanishing zero order diffraction orders and in the case of high-transition attenuated phase-shift masks a large first order diffraction amplitude reveals an even an improved as compared with conventional phase-shift masks. Two-dimensional matrix-like structures particularly on attenuated or halftone phase-shift masks can be arranged to image high-density patterns on a semiconductor wafer. The duty cycles of pattern matrices can be chosen being different from one in two orthogonal directions nevertheless leading to frequency doubling.Type: ApplicationFiled: February 27, 2004Publication date: November 18, 2004Inventors: Shahid Butt, Gerhard Kunkel
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Patent number: 6809800Abstract: An apparatus (100) for patterning the surface of a semiconductor wafer (130). A stage (148) is coupled to a motor (150) that is adapted to move the stage (148) and a semiconductor wafer (130) in a horizontal direction at a first speed A. A mask (140) is disposed above the semiconductor wafer (130), the mask (140) being coupled to a motor (142) that is adapted to move the mask (140) in a horizontal direction at a second speed B. The ratio of the first and second speeds is different than the magnification factor, which may be other than 1:1 if a lens (120) is used. The mask (140) and the wafer (130) may be moved in the same horizontal direction simultaneously during the exposure process at different speeds B and A, respectively, to provide a magnification or demagnification of the mask (140) pattern onto the wafer (130) surface.Type: GrantFiled: April 25, 2003Date of Patent: October 26, 2004Assignee: Infineon Technologies AGInventors: Oliver Genz, Jurgen Preuninger, Gerhard Kunkel
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Publication number: 20040196445Abstract: A projected image is formed during a material substrate. A photolithographic mask is illuminated with substantially coherent light at an oblique angle of incidence with respect to a surface of the photolithographic mask. The photolithographic mask includes a substantially transparent mask substrate and one or more lines and spaces patterns formed on the mask substrate and having a periodicity P. The mask substrate includes at least one phase shifting region. At least part of the light that is transmitted through the photolithographic mask is collected using one or more projection lenses which project the portion of the transmitted light onto the material substrate. The material substrate is disposed substantially parallel with, but at a distance from, a focal plane of the projection lens system.Type: ApplicationFiled: April 4, 2003Publication date: October 7, 2004Inventors: Gerhard Kunkel, Shahid Butt, Alan Thomas, Juergen Preuninger
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Patent number: 6727989Abstract: In an overlay measurement mark comprising an inner box and an outer box located at a predetermined area on a mask through which patterns are formed on a semiconductor device, the improvement of an overlay mark that extends the overlay measurement range comprising: in-focused marks means printed at an optimal or ideal focal plane level from an illumination source, and de-focused marks means located at a different focus level from the optimal focal plane to provide image placement shift of the de-focused marks larger than that of the in-focused marks means to enable measurement of the shift of de-focused marks that are not attributable to a mechanical alignment error to be determined with greater accuracy.Type: GrantFiled: June 20, 2000Date of Patent: April 27, 2004Assignee: Infineon Technologies AGInventors: Xiaoming Yin, Christopher Gould, Gerhard Kunkel
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Publication number: 20040027553Abstract: A mask having at least one pair of mutually parallel slit structures, separated from one another by a distance in an opaque layer, is introduced into a mask mount. The mask side having the layer is turned to the illumination source. During mask exposure, a far field interference pattern is produced on the opposite rear side of the mask through the slit structures and projected into the substrate plane through a lens system of the exposure apparatus. The interference pattern is recorded as an image signal through exposure of a photosensitive layer of a wafer or by sensors on a movable substrate holder. Through determination of the contrast and subsequent Fourier transformation thereof as a function of distance between slits, the light distribution of the illumination can be derived. An advantageous mask has a multiplicity of slit structure pairs disposed with different angles with respect to a preferred direction and different distances in matrix form thereon.Type: ApplicationFiled: August 8, 2003Publication date: February 12, 2004Inventors: Wolfgang Henke, Gerhard Kunkel
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Publication number: 20030218727Abstract: An apparatus (100) for patterning the surface of a semiconductor wafer (130). A stage (148) is coupled to a motor (150) that is adapted to move the stage (148) and a semiconductor wafer (130) in a horizontal direction at a first speed A. A mask (140) is disposed above the semiconductor wafer (130), the mask (140) being coupled to a motor (142) that is adapted to move the mask (140) in a horizontal direction at a second speed B. The ratio of the first and second speeds is different than the magnification factor, which may be other than 1:1 if a lens (120) is used. The mask (140) and the wafer (130) may be moved in the same horizontal direction simultaneously during the exposure process at different speeds B and A, respectively, to provide a magnification or demagnification of the mask (140) pattern onto the wafer (130) surface.Type: ApplicationFiled: April 25, 2003Publication date: November 27, 2003Inventors: Oliver Genz, Jurgen Preuninger, Gerhard Kunkel
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Patent number: 6606151Abstract: Methods and reticles for evaluating lenses are disclosed. In one instance, a reticle which permits light to pass therethrough is provided which includes a first surface with a grating profile formed thereon. The grating profile includes a plurality of grouped stepped portions. Each group of the stepped portions includes a first step which prevents light from propagating therethrough, a second step which propagates light therethrough and a third step which propagates light therethrough at an angle 60 degrees out of phase with the light propagated through the second step.Type: GrantFiled: July 27, 2001Date of Patent: August 12, 2003Assignees: Infineon Technologies AG, International Business Machines CorporationInventors: Gerhard Kunkel, Shahid Butt, Joseph Kirk
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Patent number: 6590657Abstract: A semiconductor body having an alignment mark comprising a material adapted to absorb impinging light and to radiate light in response to the absorption of the impinging light, such radiated light being radiated with a wavelength different from the wavelength of the impinging light. Also a method and apparatus for detecting an alignment mark on a semiconductor body. The method and apparatus successively scan an alignment illumination comprising the impinging light over the surface of the semiconductor surface and over the alignment mark. The impinging energy is reflected by the surface of the semiconductor when such impinging light is over and is reflected by the surface of the semiconductor. The impinging energy is absorbed by the material and is then radiated by the material when such impinging energy is scanned over such material. The reflected light is selectively filtered while the radiated light is passed to a detector.Type: GrantFiled: September 29, 1999Date of Patent: July 8, 2003Assignee: Infineon Technologies North America Corp.Inventors: Christian Summerer, Shahid Butt, Gerhard Kunkel, Uwe Paul Schroeder
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Patent number: 6566219Abstract: A method of forming a trench can be used in the fabrication of dynamic random access memory (DRAM) cells. In one aspect, a first layer of a first material (e.g., polysilicon) is formed over a semiconductor region (e.g., a silicon substrate). The first layer is patterned to remove portions of the first material. A second material (e.g., oxide) can then be deposited to fill the portions where the first material was removed. After removing the remaining portions of the first layer of first material, a trench can be etched in the semiconductor region. The trench would be substantially aligned to the second material.Type: GrantFiled: September 21, 2001Date of Patent: May 20, 2003Assignee: Infineon Technologies AGInventors: Gerhard Kunkel, Shahid Butt, Ramachandra Divakaruni, Armin M. Reith, Munir D. Naeem
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Patent number: 6558883Abstract: A method and apparatus (100) for patterning the surface of a semiconductor wafer (130). A stage (148) is coupled to a motor (150) that is adapted to move the stage (148) and a semiconductor wafer (130) in a horizontal direction at a first speed A. A mask (140) is disposed above the semiconductor wafer (130), the mask (140) being coupled to a motor (142) that is adapted to move the mask (140) in a horizontal direction at a second speed B. The ratio of the first and second speeds is different than the magnification factor, which may be other than 1:1 if a lens (120) is used. The mask (140) and the wafer (130) may be moved in the same horizontal direction simultaneously during the exposure process at different speeds B and A, respectively, to provide a magnification or demagnification of the mask (140) pattern onto the wafer (130) surface.Type: GrantFiled: March 8, 2001Date of Patent: May 6, 2003Assignee: Infineon Technologies AGInventors: Oliver Genz, Jurgen Preuninger, Gerhard Kunkel
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Publication number: 20030020901Abstract: Methods and reticles for evaluating lenses are disclosed. In one instance, a reticle which permits light to pass therethrough is provided which includes a first surface with a grating profile formed thereon. The grating profile includes a plurality of grouped stepped portions. Each group of the stepped portions includes a first step which prevents light from propagating therethrough, a second step which propagates light therethrough and a third step which propagates light therethrough at an angle 60 degrees out of phase with the light propagated through the second step.Type: ApplicationFiled: July 27, 2001Publication date: January 30, 2003Inventors: Gerhard Kunkel, Shahid Butt, Joseph Kirk
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Patent number: 6511791Abstract: A method for exposing a workpiece in a dual exposure step-and-repeat process starts by forming a design for a reticle mask. Deconstruct the design for the reticle mask by removing a set(s) of the features that are juxtaposed to form hollow polygonally-shaped clusters with a gap in the center. Form unexposed resist on the workpiece. Load the workpiece and the reticle mask into the stepper. Expose the workpiece through the reticle mask. Reposition the workpiece by a nanostep. Then expose the workpiece through the reticle mask after the repositioning. Test whether the plural exposure process is finished. If the result of the test is NO the process loops back to repeat some of the above steps. Otherwise the process has been completed. An overlay mark is produced by plural exposures of a single mark. A dead zone is provided surrounding an array region in which printing occurs subsequent to exposure in an original exposure.Type: GrantFiled: April 28, 2000Date of Patent: January 28, 2003Assignees: International Business machines Corporation, Infineon Technologies North American Corp.Inventors: Scott J. Bukofsky, Gerhard Kunkel, Richard Wise, Alfred K. Wong
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Patent number: 6451508Abstract: A method for exposing a workpiece in a dual exposure step-and-repeat process starts by forming a design for a reticle mask. Deconstruct the design for the reticle mask by removing a set(s) of the features that are juxtaposed. Form unexposed resist on the workpiece. Load the workpiece and the reticle mask into the stepper. Expose the workpiece through the reticle mask. Reposition the workpiece by a nanostep. Then expose the workpiece through the reticle mask after the repositioning. Test whether the plural exposure process is finished. If the result of the test is NO the process loops back to repeat some of the above steps. Otherwise the process has been completed. An overlay mark is produced by plural exposures of a single mark. A dead zone is provided surrounding an array region in which printing occurs subsequent to exposure in an original exposure. Stepper-framing-blades are moved over the dead zone to prevent additional exposures after an initial exposure.Type: GrantFiled: April 28, 2000Date of Patent: September 17, 2002Assignees: International Business Machines Corporation, Infineon Technologies North America Corp.Inventors: Scott J. Bukofsky, Gerhard Kunkel, Alan C. Thomas
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Publication number: 20020127501Abstract: A method and apparatus (100) for patterning the surface of a semiconductor wafer (130). A stage (148) is coupled to a motor (150) that is adapted to move the stage (148) and a semiconductor wafer (130) in a horizontal direction at a first speed A. A mask (140) is disposed above the semiconductor wafer (130), the mask (140) being coupled to a motor (142) that is adapted to move the mask (140) in a horizontal direction at a second speed B. The ratio of the first and second speeds is different than the magnification factor, which may be other than 1:1 if a lens (120) is used. The mask (140) and the wafer (130) may be moved in the same horizontal direction simultaneously during the exposure process at different speeds B and A, respectively, to provide a magnification or demagnification of the mask (140) pattern onto the wafer (130) surface.Type: ApplicationFiled: March 8, 2001Publication date: September 12, 2002Inventors: Oliver Genz, Jurgen Preuninger, Gerhard Kunkel
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Patent number: 6420272Abstract: In semiconductor dynamic random access memory circuits using stacked capacitor storage elements formed using high permittivity dielectric material, it is typical to form the stacked capacitors using noble metal electrodes. Typically, the etching process for the noble metal electrodes requires the use of a hard mask patterning material such as silicon oxide. Removal of this hard mask frequently results in damage to the dielectric surface surrounding the patterned noble metal electrode.Type: GrantFiled: December 14, 1999Date of Patent: July 16, 2002Assignees: Infineon Technologies A G, International Business Machines CorporationInventors: Hua Shen, David Edward Kotecki, Satish D. Athavale, Jenny Lian, Gerhard Kunkel, Nimal Chaudhary
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Publication number: 20020068400Abstract: A method of forming a trench can be used in the fabrication of dynamic random access memory (DRAM) cells. In one aspect, a first layer of a first material (e.g., polysilicon) is formed over a semiconductor region (e.g., a silicon substrate). The first layer is patterned to remove portions of the first material. A second material (e.g., oxide) can then be deposited to fill the portions where the first material was removed. After removing the remaining portions of the first layer of first material, a trench can be etched in the semiconductor region. The trench would be substantially aligned to the second material.Type: ApplicationFiled: September 21, 2001Publication date: June 6, 2002Applicant: Infineon Technologies North America Corp.Inventors: Gerhard Kunkel, Shahid Butt, Ramachandra Divakaruni, Armin M. Reith, Munir D. Naeem
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Patent number: 6383691Abstract: A photomask for lithographic processing, in accordance with the present invention, includes a plurality of features for providing an image pattern. The features are arranged in a column on a mask substrate. Each feature is dimensioned to provide an individual image separate from all other images provided by the photomask when exposed to light. A line feature is formed on the mask substrate and extends between and intersects with each of the plurality of features in the column. The line feature extends a length of images produced by the plurality of features arranged in the column when exposed to light wherein the images produced by each of the plurality of features and the line feature remain separate from each other.Type: GrantFiled: June 26, 2000Date of Patent: May 7, 2002Assignee: Infineon Technologies AGInventors: Mihel Seitz, Gerhard Kunkel
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Patent number: 6379869Abstract: A photoresist system is provided that is easily structurable and is suitable for deep ultraviolet range patterning. An increased etching resistance to oxygen-containing plasma is produced in a lithographically generated photoresist structure by treatment with an etch protectant. The etch protectant includes a silylating agent for chemical reaction with reactive groups of the photoresist. In an embodiment, the photoresist includes a base resin initially containing no aromatic groups. Silylating agents include silicon tetrachloride, silicon tetrafluoride, trichlorosilane, dimethylchlorosilane and hexamethyldisilazane.Type: GrantFiled: March 31, 1999Date of Patent: April 30, 2002Assignee: Infineon Technologies AGInventors: Uwe Paul Schroeder, Gerhard Kunkel, Alois Gutmann, Bruno Spuler