Patent application number | Description | Published |
20090168189 | Projection optical system, exposure apparatus, and exposure method - A projection objective includes at least four curved mirrors, which include a first curved mirror that is a most optically forward mirror and a second curved mirror that is a second most optically forward mirror, as defined along a light path. In addition, an intermediate lens element is disposed physically between the first and second mirrors, the intermediate lens element being a single pass type lens. The objective forms an image with a numerical aperture of at least substantially 1.0 in immersion. | 07-02-2009 |
20110002032 | PROJECTION OPTICAL SYSTEM, EXPOSURE APPARATUS, AND EXPOSURE METHOD - A catadioptric projection optical system for forming a reduced image of a first surface (R) on a second surface (W) is a relatively compact projection optical system having excellent imaging performance as well corrected for various aberrations, such as chromatic aberration and curvature of field, and being capable of securing a large effective image-side numerical aperture while suitably suppressing reflection loss on optical surfaces. The projection optical system comprises at least two reflecting mirrors (CM | 01-06-2011 |
20120092760 | PROJECTION OPTICAL SYSTEM, EXPOSURE APPARATUS, AND EXPOSURE METHOD - 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. The projection objective includes a first objective part that includes one or more refractive optical elements to image the pattern provided in the object plane into a first intermediate image, a second objective part that consists of reflective optical elements including at least one concave mirror to image the first intermediate image into a second intermediate image, and a third objective part that includes one or more refractive optical elements to image the second intermediate imaging onto the image plane. The projection objective includes at lease one double asphere having a first aspheric surface and a second aspheric surface immediately adjacent to the first aspheric surface, the double asphere being formed by facing adjacent aspheric surfaces of two consecutive lenses. | 04-19-2012 |
20130314679 | PROJECTION OPTICAL SYSTEM, EXPOSURE APPARATUS, AND EXPOSURE METHOD - A projection objective includes at least four curved mirrors, which include a first curved mirror that is a most optically forward mirror and a second curved mirror that is a second most optically forward mirror, as defined along a light path. In addition, an intermediate lens element is disposed physically between the first and second mirrors, the intermediate lens element being a single pass type lens. The objective forms an image with a numerical aperture of at least substantially 1.0 in immersion. | 11-28-2013 |
20140211180 | PROJECTION OPTICAL SYSTEM, EXPOSURE APPARATUS, AND EXPOSURE METHOD - A projection objective includes at least four curved mirrors, which include a first curved mirror that is a most optically forward mirror and a second curved mirror that is a second most optically forward mirror, as defined along a light path. In addition, an intermediate lens element is disposed physically between the first and second mirrors, the intermediate lens element being a single pass type lens. The objective forms an image with a numerical aperture of at least substantially 1.0 in immersion. | 07-31-2014 |
20140211182 | PROJECTION OPTICAL SYSTEM, EXPOSURE APPARATUS, AND EXPOSURE METHOD - A projection objective includes at least four curved mirrors, which include a first curved mirror that is a most optically forward mirror and a second curved mirror that is a second most optically forward mirror, as defined along a light path. In addition, an intermediate lens element is disposed physically between the first and second mirrors, the intermediate lens element being a single pass type lens. The objective forms an image with a numerical aperture of at least substantially 1.0 in immersion. | 07-31-2014 |
20140211183 | PROJECTION OPTICAL SYSTEM, EXPOSURE APPARATUS, AND EXPOSURE METHOD - A projection objective includes at least four curved mirrors, which include a first curved mirror that is a most optically forward mirror and a second curved mirror that is a second most optically forward mirror, as defined along a light path. In addition, an intermediate lens element is disposed physically between the first and second mirrors, the intermediate lens element being a single pass type lens. The objective forms an image with a numerical aperture of at least substantially 1.0 in immersion. | 07-31-2014 |
Patent application number | Description | Published |
20080259440 | PROJECTION OPTICAL SYSTEM, EXPOSURE APPARATUS, AND DEVICE MANUFACTURING METHOD - A projection optical system for forming an image of a first surface on a second surface has a first imaging optical system and a second imaging optical system, and a folding member for guiding light from the first imaging optical system to the second imaging optical system. Every optical element having a power in the second imaging optical system is a refractive element. | 10-23-2008 |
20090027768 | Catadioptric imaging system, exposure apparatus, and device manufacturing method - A catadioptric imaging optical system of a high numerical aperture in which various aberrations are properly corrected without using a reflection surface having an aspherical shape of high order or a reciprocal optical element. The catadioptric imaging optical system forms an image of a first plane on a second plane and includes a first imaging system for forming a first intermediate image of the first plane based on light from the first plane, a second imaging system having two concave reflection mirrors for forming a second intermediate image of the first plane based on light from the first intermediate image, and a third imaging system for forming a final image of the first plane on the second plane based on light from the second intermediate image. The two concave reflection mirrors have prolate spheroidal-shaped reflection surfaces. | 01-29-2009 |
20090092925 | Projection optical system, exposure apparatus, and exposure method - An immersion projection optical system that prevents leakage of a liquid (immersion liquid) into the optical system and maintains satisfactory imaging capability. The projection optical system of the present invention is a projection optical system that projects a reduced image of a first plane onto a second plane through a liquid. The projection optical system includes an interface optical lens (Lb) having a side towards the first plane that contacts a gas and a side towards the second plane that contacts the liquid. The interface optical element includes a light entering surface (Lba), which has a convex shape facing towards the first plane, and a groove (Gr), which is formed to surround an effective region in a light emitting surface of the interface optical element. | 04-09-2009 |
20100141921 | Optical system, exposure system, and exposure method - An optical system is able to achieve a substantially azimuthal polarization state in a lens aperture while suppressing loss of light quantity, based on a simple configuration. The optical system of the present invention is provided with a birefringent element for achieving a substantially circumferential distribution or a substantially radial distribution as a fast axis distribution in a lens aperture, and an optical rotator located behind the birefringent element and adapted to rotate a polarization state in the lens aperture. The birefringent element has an optically transparent member which is made of a uniaxial crystal material and a crystallographic axis of which is arranged substantially in parallel with an optical axis of the optical system. A light beam of substantially spherical waves in a substantially circular polarization state is incident to the optically transparent member. | 06-10-2010 |
20100141926 | Optical system,exposure system, and exposure method - An optical system is able to achieve a substantially azimuthal polarization state in a lens aperture while suppressing loss of light quantity, based on a simple configuration. The optical system of the present invention is provided with a birefringent element for achieving a substantially circumferential distribution or a substantially radial distribution as a fast axis distribution in a lens aperture, and an optical rotator located behind the birefringent element and adapted to rotate a polarization state in the lens aperture. The birefringent element has an optically transparent member which is made of a uniaxial crystal material and a crystallographic axis of which is arranged substantially in parallel with an optical axis of the optical system. A light beam of substantially spherical waves in a substantially circular polarization state is incident to the optically transparent member. | 06-10-2010 |
20100142051 | Optical system, exposure system, and exposure method - An optical system is able to achieve a substantially azimuthal polarization state in a lens aperture while suppressing loss of light quantity, based on a simple configuration. The optical system of the present invention is provided with a birefringent element for achieving a substantially circumferential distribution or a substantially radial distribution as a fast axis distribution in a lens aperture, and an optical rotator located behind the birefringent element and adapted to rotate a polarization state in the lens aperture. The birefringent element has an optically transparent member which is made of a uniaxial crystal material and a crystallographic axis of which is arranged substantially in parallel with an optical axis of the optical system. A light beam of substantially spherical waves in a substantially circular polarization state is incident to the optically transparent member. | 06-10-2010 |
20100159401 | PROJECTION OPTICAL SYSTEM, EXPOSURE SYSTEM, AND EXPOSURE METHOD - A liquid immersion type projection optical system that can stably prevent the outflow of immersion liquid into inside of an optical system and can maintain good imaging performance. In the projection optical system of the present invention, an optical path between a light transmitting member (Lp) disposed closest to a second surface (W) side and the second surface is filled with a liquid (Lm | 06-24-2010 |
20120002186 | PROJECTION OPTICAL SYSTEM, EXPOSURE APPARATUS, AND EXPOSURE METHOD - An immersion projection optical system having, for example, a catadioptric and off-axis structure, reduces the portion of an image space filled with liquid (immersion liquid). The projection optical system, which projects a reduced image of a first plane onto a second plane through the liquid, includes a refractive optical element (Lp) arranged nearest to the second plane. The refractive optical element includes a light emitting surface (Lpb) shaped to be substantially symmetric with respect to two axial directions (XY-axes) perpendicular to each other on the second plane. The light emitting surface has a central axis (Lpba) that substantially coincides with a central axis ( | 01-05-2012 |
20120224154 | EXPOSURE APPARATUS, EXPOSURE METHOD, AND METHOD FOR PRODUCING DEVICE - An exposure apparatus exposes a substrate by irradiating exposure light on the substrate through liquid. The exposure apparatus has a substrate holder for holding the substrate, a substrate stage capable of moving the substrate held by the substrate holder, and a temperature adjusting system for adjusting the temperature of the substrate holder. The temperature of the substrate is controlled so that there is no difference in temperature between the substrate and the liquid, thereby preventing a reduction in exposure accuracy resulting from variation in temperature of the liquid. | 09-06-2012 |
20140055763 | EXPOSURE APPARATUS, EXPOSURE METHOD, AND METHOD FOR PRODUCING DEVICE - An exposure apparatus exposes a substrate by irradiating exposure light on the substrate through liquid. The exposure apparatus has a substrate holder for holding the substrate, a substrate stage capable of moving the substrate held by the substrate holder, and a temperature adjusting system for adjusting the temperature of the substrate holder. The temperature of the substrate is controlled so that there is no difference in temperature between the substrate and the liquid, thereby preventing a reduction in exposure accuracy resulting from variation in temperature of the liquid. | 02-27-2014 |
20150029476 | PROJECTION OPTICAL SYSTEM, EXPOSURE APPARATUS, AND EXPOSURE METHOD - An immersion projection optical system having, for example, a catadioptric and off-axis structure, reduces the portion of an image space filled with liquid (immersion liquid). The projection optical system, which projects a reduced image of a first plane onto a second plane through the liquid, includes a refractive optical element (Lp) arranged nearest to the second plane. The refractive optical element includes a light emitting surface (Lpb) shaped to be substantially symmetric with respect to two axial directions (XY-axes) perpendicular to each other on the second plane. The light emitting surface has a central axis (Lpba) that substantially coincides with a central axis ( | 01-29-2015 |
20150029482 | PROJECTION OPTICAL SYSTEM, EXPOSURE APPARATUS, AND EXPOSURE METHOD - An immersion projection optical system having, for example, a catadioptric and off-axis structure, reduces the portion of an image space filled with liquid (immersion liquid). The projection optical system, which projects a reduced image of a first plane onto a second plane through the liquid, includes a refractive optical element (Lp) arranged nearest to the second plane. The refractive optical element includes a light emitting surface (Lpb) shaped to be substantially symmetric with respect to two axial directions (XY-axes) perpendicular to each other on the second plane. The light emitting surface has a central axis (Lpba) that substantially coincides with a central axis ( | 01-29-2015 |
Patent application number | Description | Published |
20080218714 | Exposure Method, Exposure Apparatus and Device Manufacturing Method - An exposure apparatus is provided with an optical system including a liquid, a sensor system for acquiring energy information of an energy beam which is incident on the liquid, and a controller which predicts variation of optical properties of the optical system including the liquid due to energy absorption of the liquid based on the energy information acquired using the sensor system and controls exposure operation with respect to an object based on the prediction results. According to the exposure apparatus, exposure operation without being influenced by the variation of the optical properties of the optical system including the liquid due to the energy absorption of the liquid becomes possible. | 09-11-2008 |
20080273185 | Optical System, Exposing Apparatus and Exposing Method - An optical system includes a reflecting mirror to which rays are incident across a relatively wide incidence angle range, while well suppressing a change in a polarization state in an optical path of a beam incident substantially as linearly polarized light. The optical system has a first deflecting plane mirror and a second deflecting plane mirror and a substantially linearly polarized beam is incident to the optical system. Each of the first deflecting plane mirror and the second deflecting plane mirror is so arranged that a change from a phase difference between p-polarized incident light to a reflecting surface and s-polarized incident light to the reflecting surface, to a phase difference between reflected light of the p-polarized incident light to the reflecting surface and reflected light of the s-polarized incident light to the reflecting surface is within 30° for all rays incident to the reflecting surface. | 11-06-2008 |
20090046268 | Projection optical system, exposure apparatus, and exposure method - An immersion projection optical system having, for example, a catadioptric and off-axis structure, reduces the portion of an image space filled with liquid (immersion liquid). The projection optical system, which projects a reduced image of a first plane onto a second plane through the liquid, includes a refractive optical element (Lp) arranged nearest to the second plane. The refractive optical element includes a light emitting surface (Lpb) shaped to be substantially symmetric with respect to two axial directions (XY-axes) perpendicular to each other on the second plane. The light emitting surface has a central axis (Lpba) that substantially coincides with a central axis ( | 02-19-2009 |