Patent application number | Description | Published |
20090033903 | ILLUMINATION SYSTEMS, EXPOSURE APPARATUS, AND MICRODEVICE-MANUFACTURING METHODS USING SAME - Illumination systems are disclosed that illuminate a surface M for irradiation with illumination light emitted from a light source | 02-05-2009 |
20090040493 | ILLUMINATION OPTICAL SYSTEM, ILLUMINATION OPTICAL APPARATUS, EXPOSURE APPARATUS, AND DEVICE MANUFACTURING METHOD - An illumination optical apparatus includes a light source, which supplies illumination light including a wavelength of 5 nm to 50 nm, and an illumination optical system, which guides the illumination light to an illuminated surface. The illumination optical system includes an aperture angle restriction member and a condenser optical system, which is arranged in an optical path between the aperture restriction member and the illuminated surface to guide light beam from the aperture angle restriction member to the illuminated surface. A rotation axis of an arcuate-shape of an illumination region formed on the illuminated surface is located outside an opening of the aperture angle restriction member. The condenser optical system includes a plurality of reflection surfaces. Among the plurality of reflection surfaces, the reflection surface closest to the illuminated surface along the optical path includes a concave shape. When, for example, applied to an EUVL exposure apparatus, the illumination optical apparatus illuminates a reflective mask, serving as the illumination plane, without a plane mirror in the optical path between the illumination optical system and the mask. | 02-12-2009 |
20090135510 | REFLECTIVE PROJECTION OPTICAL SYSTEM, EXPOSURE APPARATUS, DEVICE MANUFACTURING METHOD, PROJECTION METHOD, AND EXPOSURE METHOD - A reflective projection optical system comprises a first optical unit having at least one reflecting optical element, and a second optical unit having at least one reflecting optical element. A focal point on the second surface side of the first optical unit approximately agrees with a focal point on the first surface side of the second optical unit. An angle between a normal to the first surface and a principal ray of the illumination beam incident to the first surface is larger than a value of arcsine of a numerical aperture on the first surface side of the reflective projection optical system. All the optical elements in the projection optical system are located outside an extension surface of a ray group defining an outer edge of the illumination beam incident to the first surface. | 05-28-2009 |
20090239178 | OPTICAL ATTENUATOR PLATE, EXPOSURE APPARATUS, EXPOSURE METHOD, AND DEVICE MANUFACTURING METHOD - There is disclosed an optical attenuator plate and an optical attenuator plate to adjust a quantity of light from a light source, which has a plurality of high-transmittance regions with a relatively high transmittance, and in which shapes of the high-transmittance regions are so defined that an intensity distribution of diverging light or converging light having passed through the optical attenuator plate becomes uniform. | 09-24-2009 |
20090257042 | Exposure apparatus and electronic device manufacturing method - An exposure apparatus including a field stop is provided. The exposure apparatus includes an illumination optical system that guides light from a light source to a pattern forming section, a projection optical system that projects, onto an exposed surface, a pattern image formed by the pattern forming section with light from the illumination optical system, a driving section that moves, in a scanning direction, a substrate arranged on the exposed surface, and a block section that is disposed between the projection optical system and the exposed surface, where the block section has a scanning window that determines a width, in the scanning direction, of an exposure region exposed to light projected by the projection optical system. | 10-15-2009 |
20110109890 | LIGHT SOURCE APPARATUS, EXPOSURE APPARATUS, AND ELECTRONIC DEVICE MANUFACTURING METHOD - There is provided a light source apparatus for emitting light having a uniform intensity distribution. Such a light source apparatus for generating a light beam to be projected toward a fly-eye optical system included in an exposure apparatus includes a light source, and a mirror that reflects the light beam emitted from the light source toward the fly-eye optical system. Here, the mirror reflects the light beam from the light source such that the light beam projected toward the fly-eye optical system has a lower intensity in the edge portion than in the center portion. The mirror may reflect the light beam such that the intensity of the light beam projected toward the fly-eye optical system monotonically decreases in the edge portion. Furthermore, the mirror may reflect the light beam such that the intensity of the light beam projected toward the fly-eye optical system decreases down to zero in the edge portion. | 05-12-2011 |
20120287413 | IMAGE-FORMING OPTICAL SYSTEM, EXPOSURE APPARATUS, AND DEVICE PRODUCING METHOD - There is provided a reflective image-forming optical system which is applicable to an exposure apparatus using, for example, EUV light and which is capable of increasing numerical aperture while enabling optical path separation of light fluxes. In a reflective imaging optical system ( | 11-15-2012 |
20130128248 | LIGHT SOURCE APPARATUS, OPTICAL APPARATUS, EXPOSURE APPARATUS, DEVICE MANUFACTURING METHOD, ILLUMINATING METHOD, EXPOSURE METHOD, AND METHOD FOR MANUFACTURING OPTICAL APPARATUS - An optical apparatus capable of illuminating an irradiation surface under a required illumination condition capable of achieving a high light efficiency while keeping a small light loss due to, for example, the overlap error of illuminating fields. The optical apparatus, which illuminates a first area with light from a light source while the first area is longer in a second direction intersecting a first direction than in the first direction, includes a collector optical member which is arranged in an optical path between the light source and the first area, and condenses the light from the light source to form a second area in a predetermined plane, the second area being longer in a fourth direction intersecting a third direction than in the third direction; and a first fly's eye optical member which is provided within the predetermined plane including the second area, and has a plurality of first optical elements guiding the light of the collector optical member to the first area. | 05-23-2013 |
20130335720 | REFLECTING OPTICAL MEMBER, OPTICAL SYSTEM, EXPOSURE APPARATUS, AND DEVICE MANUFACTURING METHOD - An exit-side fly-eye mirror is provided with a first mirror block having a mirror element as one of a plurality of mirror elements, and a second mirror block having a mirror element as one of the plurality of mirror elements. The first mirror block has a connecting part that protrudes from an area other than the mirror surface of the mirror element, the connecting part providing a connection to the second mirror block. With the connecting part of the first mirror block, a plurality of mirror elements that includes the mirror element of the second mirror block is positioned relative to the mirror element of the first mirror block. | 12-19-2013 |
20140218705 | ILLUMINATION DEVICE - An object is to provide an illumination apparatus that achieves illumination with a uniform illuminance distribution, while reducing a light quantity loss. An illumination apparatus for illuminating an illumination target surface has: a deflection member configured to form an illuminance distribution with a periodic pattern along a predetermined direction on a predetermined face traversing an optical path; and an optical integrator system having a plurality of wavefront division facets arrayed on the predetermined face and configured to form secondary light sources with use of a beam from the deflection member; the deflection member forms the illuminance distribution with the periodic pattern of an integer times or a unit fraction times an array period of the plurality of wavefront division facets. | 08-07-2014 |
20140293254 | ILLUMINATION OPTICAL DEVICE, OPTICAL UNIT, ILLUMINATION METHOD, AND EXPOSURE METHOD AND DEVICE - An illumination device for illuminating a reticle surface as an illumination target surface with illumination light supplied from a light source is provided with a first polarization beam splitter for separating the illumination light into a first beam and a second beam with respective polarization directions orthogonal to each other; a deformable mirror which is arranged in an optical path of the second beam and a shape of a reflecting surface of which is variable for changing a phase difference distribution between the first beam and the second beam; and a second polarization beam splitter for combining the first beam and the second beam between which the phase difference distribution has been established. The illumination target surface can be illuminated with light having a distribution of various polarization states. | 10-02-2014 |