Abstract: The present invention configures a gas generator (A) wherein, with regard to a plug assembly (2), a ring (22) is formed of insulative resin, electrode pins (21) are equipped midway with flange portions (21a), and these flange portions (21a) are integrally formed in a state embedded inside the ring (22), and, in addition, the diameter of the flange portions (21a) is made a larger diameter than the short sides of this opening portion (1a) of the holder (1), the sum of the sector angles (R) formed by the outer peripheral portions (21r) of the flange portions (21a) of the electrode pins (21) located outside the opening portion of the holder (1) and the electrode pins (21) is configured to be 180 degrees or greater, the flange portions (21a) of the electrode pins (21) are further made mutually non-contacting, and the minimum distance (D) between the electrode pins (21) and the periphery of the opening portion (1a) of the holder (1) through which these electrode pins (21) are inserted is made 0.5 mm.

Abstract: Multilayer-film reflective mirrors are disclosed that exhibit desired optical characteristics and resistance to reflective-surface degradation. An exemplary multilayer-film mirror includes a base and a multilayer film on the base. The multilayer film is made of first and second layers alternatingly laminated at a prescribed period length. The surface of the multilayer film has an irregular surface profile, relative to the surface profile of the base. The multilayer film reflects incident extreme ultraviolet (EUV) light. A third layer, situated on and covering the surface of the multilayer film, is formed of a substance having substantially the same refractive index to EUV light as the refractive index of a vacuum. The third layer has a surface profile substantially the same as the surface contour of the base. The third layer is covered with a protective layer.

Abstract: According to one embodiment, an assembly method of a projection optical system, including a lower tube and an upper tube, comprises: storing a relative positional relation between the lower tube and the upper tube in a state in which an optical characteristic of the projection optical system is adjusted; disassembling the lower tube and the upper tube; and adjusting relative positions of the lower tube and the upper tube, based on the stored relative positional relation, in next fixing the lower tube and the upper tube to each other.

Abstract: An exposure apparatus that exposes an object to be exposed with light from an EUV light source. The light has an exposure wavelength component and a non-exposure wavelength component. The exposure apparatus has a detector that independently detects the quantity of light of the exposure wavelength component and the quantity of light of the non-exposure wavelength component of the light. Therefore, for example, even if the quantity of light of the exposure wavelength component and the quantity of light of the non-exposure wavelength component individually fluctuate, it is possible to accurately ascertain fluctuations in the characteristics of the optical system resulting from irradiation heat. As a result, it is also possible to achieve a high performance mirror adjustment system.

Abstract: A method for measuring flare information of a projection optical system includes arranging, on an object plane of the projection optical system, a sectoral pattern surrounded by a first side, a second side which is inclined at a predetermined angle with respect to the first side, and an inner diameter portion and an outer diameter portion which connect both ends of the first side and both ends of the second side; projecting an image of the sectoral pattern via the projection optical system; and determining the flare information based on a light amount of the image of the sectoral pattern and a light amount provided at a position away from the image. With the flare measuring method, it possible to correctly measure the flare information in an arbitrary angle range.

Abstract: An aperture diaphragm plate is provided to define a light flux on a pupil plane of an optical system or a plane or surface disposed in the vicinity of the pupil plane. An aperture, which is formed in the aperture diaphragm plate, has a three-dimensional shape corresponding to an optimum pupil shape of the optical system. It is possible to improve the imaging characteristic brought about by the optical system by providing the optimum pupil shape of the optical system.

Abstract: A multilayer mirror aims to reduce incidence angle dependence of reflectivity. A substrate is made of low thermal polished expansion glass with 0.2 nm RMS or less roughness of the surface. On the surface thereof formed is a Ru/Si multilayer having a wide full-width half maximum of peak reflectivity, and on the Ru/Si multilayer formed is a Mo/Si multilayer having a high peak reflectivity value. This enables higher reflectivity than when Ru/Si alone provided and a reflectivity peak having a wider full-width half maximum than when the Mo/Si multilayer alone provided. Since Ru absorbs EUV ray more than Mo does, higher reflectivity is obtainable than that of a structure having the Ru/Si multilayer formed on the Mo/Si multilayer. The multilayer with a wide full-width half maximum has small incidence angle dependence of reflectivity in spectral reflectivity, thereby achieving high imaging performance in projection optical system.

Abstract: A measuring member has a first face and a plurality of first marks arranged on the first face. The first marks have respective orientations corresponding to their positions in a first direction.

Abstract: A mirror apparatus includes a plurality of holes which are divided by partition wall portions on a back surface of a mirror, a plurality of thin film piezoelectric elements which are fixed to bottom surfaces of the plurality of holes respectively, a radiation temperature-regulating plate which has a plurality of projections inserted into the holes, and a mirror control system which individually controls voltages to be applied to the plurality of thin film piezoelectric elements to deform the mirror. The mirror can be efficiently deformed and/or cooled from the side of the back surface without transmitting any vibration to the mirror.

Abstract: In an illumination optical system, a light flux from a light source is made to come into a first fly's eye optical system, and an illumination area is illuminated, via a second fly's eye optical system and a condenser optical system, with light fluxes from a plurality of mirror elements which construct the first fly's eye optical system, wherein a reflecting surface of each of the mirror elements has a width in one direction narrower than a width of each of the mirror elements in a direction perpendicular to the one direction, and a reflectance distribution in the one direction of each of the mirror elements is trapezoidal. The intensity distribution of the illumination area can be set to be a nonuniform distribution, and respective points in the illumination area can be illuminated with the light fluxes having an approximately same aperture angle distribution.

Abstract: Multilayer-film (MLF) reflective mirrors are disclosed that have a highly precise surface profile. An exemplary MLF reflective mirror includes multilayer film in which layers of molybdenum (Mo) and layers of silicon (Si) are periodically deposited in an alternating manner on the surface of a mirror substrate. One or more selected regions of the multilayer film have been “shaved” away layer-wise as required to impart an in-plane distribution of removed material sufficient to correct a wavefront error in light reflected from the mirror. After such “layer-machining,” a single-layer film of Si (or Si-containing material) is applied to fill in the machined areas and restore the original contour, as designed, for the surface of the multilayer film. I.e., the Si film has a thickness distribution corresponding to the depth profile of material removed from the multilayer film. A capping layer can be deposited uniformly on the surface of the single-layer film.

Abstract: A multilayer mirror aims to reduce incidence angle dependence of reflectivity. A substrate is made of low thermal polished expansion glass with 0.2 nm RMS or less roughness of the surface. On the surface thereof formed is a Ru/Si multilayer having a wide full-width half maximum of peak reflectivity, and on the Ru/Si multilayer formed is a Mo/Si multilayer having a high peak reflectivity value. This enables higher reflectivity than when Ru/Si alone provided and a reflectivity peak having a wider full-width half maximum than when the Mo/Si multilayer alone provided. Since Ru absorbs EUV ray more than Mo does, higher reflectivity is obtainable than that of a structure having the Ru/Si multilayer formed on the Mo/Si multilayer. The multilayer with a wide full-width half maximum has small incidence angle dependence of reflectivity in spectral reflectivity, thereby achieving high imaging performance in projection optical system.

Abstract: An Sn—Ga type alloy having a composition in which the atomic % of Sn is 15% or less is accommodated inside a heated tank 4. The Sn alloy pressurized by the pressurizing pump is conducted to a nozzle 1, so that a liquid-form Sn alloy is caused to jet from the tip end of this nozzle 1 disposed inside a vacuum chamber 7. The liquid-form Sn alloy that is caused to jet from the nozzle 1 has a spherical shape as a result of surface tension, and forms a target 2. Laser light generated by an Nd:YAG laser light source 8 disposed on the outside of the vacuum chamber 7 is focused by a lens 9 and introduced into the vacuum chamber 7. The target 2 that is irradiated by the laser is converted into a plasma, and radiates light that includes EUV light.

Abstract: Multilayer-film reflective mirrors are disclosed. An exemplary such mirror has a base and a multilayer film formed on the base. The multilayer film includes multiple layer pairs. Each layer pair includes a respective first layer and a respective second layer, wherein the first and second layers are laminated together in an alternating manner. The multilayer film has first and second regions that reflect extreme ultraviolet light. A first group of layers is disposed in the first and second regions and has a first periodic length. A second group disposed in the first region has a second periodic length different from the first periodic length, and a third group disposed in the second region has a substantially same periodic length as the first periodic length.

Abstract: A multilayer mirror aims to reduce incidence angle dependence of reflectivity. A substrate is made of low thermal polished expansion glass with 0.2 nm RMS or less roughness of the surface. On the surface thereof formed is a Ru/Si multilayer having a wide full-width half maximum of peak reflectivity, and on the Ru/Si multilayer formed is a Mo/Si multilayer having a high peak reflectivity value. This enables higher reflectivity than when Ru/Si alone provided and a reflectivity peak having a wider full-width half maximum than when the Mo/Si multilayer alone provided. Since Ru absorbs EUV ray more than Mo does, higher reflectivity is obtainable than that of a structure having the Ru/Si multilayer formed on the Mo/Si multilayer. The multilayer with a wide full-width half maximum has small incidence angle dependence of reflectivity in spectral reflectivity, thereby achieving high imaging performance in projection optical system.

Abstract: Multilayer-film reflective mirrors are disclosed that exhibit desired optical characteristics and resistance to reflective-surface degradation. An exemplary multilayer-film mirror includes a base and a multilayer film on the base. The multilayer film is made of first and second layers alternatingly laminated at a prescribed period length. The surface of the multilayer film has an irregular surface profile, relative to the surface profile of the base. The multilayer film reflects incident extreme ultraviolet (EUV) light. A third layer, situated on and covering the surface of the multilayer film, is formed of a substance having substantially the same refractive index to EUV light as the refractive index of a vacuum. The third layer has a surface profile substantially the same as the surface contour of the base. The third layer is covered with a protective layer.

Abstract: A multilayer mirror aims to reduce incidence angle dependence of reflectivity. A substrate is made of low thermal polished expansion glass with 0.2 nm RMS or less roughness of the surface. On the surface thereof formed is a Ru/Si multilayer having a wide full-width half maximum of peak reflectivity, and on the Ru/Si multilayer formed is a Mo/Si multilayer having a high peak reflectivity value. This enables higher reflectivity than when Ru/Si alone provided and a reflectivity peak having a wider full-width half maximum than when the Mo/Si multilayer alone provided. Since Ru absorbs EUV ray more than Mo does, higher reflectivity is obtainable than that of a structure having the Ru/Si multilayer formed on the Mo/Si multilayer. The multilayer with a wide full-width half maximum has small incidence angle dependence of reflectivity in spectral reflectivity, thereby achieving high imaging performance in projection optical system.

Abstract: There is disclosed an optical element, comprising, a supporting substrate, a multilayer film being supported on the substrate and reflecting extreme ultraviolet light, and an alloy layer provided between the multilayer film and the substrate.

Abstract: A multilayer mirror aims to reduce incidence angle dependence of reflectivity. A substrate is made of low thermal polished expansion glass with 0.2 nm RMS or less roughness of the surface. On the surface thereof formed is a Ru/Si multilayer having a wide full-width half maximum of peak reflectivity, and on the Ru/Si multilayer formed is a Mo/Si multilayer having a high peak reflectivity value. This enables higher reflectivity than when Ru/Si alone provided and a reflectivity peak having a wider full- width half maximum than when the Mo/Si multilayer alone provided. Since Ru absorbs EUV ray more than Mo does, higher reflectivity is obtainable than that of a structure having the Ru/Si multilayer formed on the Mo/Si multilayer. The multilayer with a wide full-width half maximum has small incidence angle dependence of reflectivity in spectral reflectivity, thereby achieving high imaging performance in projection optical system.

Abstract: An Sn—Ga type alloy having a composition in which the atomic % of Sn is 15% or less is accommodated inside a heated tank 4. The Sn alloy pressurized by the pressurizing pump is conducted to a nozzle 1, so that a liquid-form Sn alloy is caused to jet from the tip end of this nozzle 1 disposed inside a vacuum chamber 7. The liquid-form Sn alloy that is caused to jet from the nozzle 1 has a spherical shape as a result of surface tension, and forms a target 2. Laser light generated by an Nd:YAG laser light source 8 disposed on the outside of the vacuum chamber 7 is focused by a lens 9 and introduced into the vacuum chamber 7. The target 2 that is irradiated by the laser is converted into a plasma, and radiates light that includes EUV light.

Abstract: Disclosed herein is a composition comprising an isocyanate-reactive compound and a catalyst comprising a bismuth carboxylate and a zirconium carboxylate, wherein the catalyst is present in an amount sufficient to catalyze a reaction with the isocyanate-reactive compound and a polyisocyanate. Also disclosed is a process for preparing a composition, which comprises contacting an isocyanate-reactive compound with a polyisocyanate, in the presence of an effective amount of a catalyst comprising a bismuth carboxylate and a zirconium carboxylate, under reaction conditions sufficient to form a composition containing at least one urethane group.