Patent application number | Description | Published |
20090267003 | SEMICONDUCTOR EXPOSURE DEVICE USING EXTREME ULTRA VIOLET RADIATION - The exposure device is able to supply only EUV radiation to a mask, while eliminating radiation other than the EUV radiation. A multi layer made from a plurality of Mo/Si pair layers is provided upon the front surface of a mirror, and blazed grooves are formed in this multi layer. Radiation which is incident from a light source device is incident upon this mirror, and is reflected or diffracted. Since the reflected EUV radiation (including diffracted EUV radiation) and the radiation of other wavelengths are reflected or diffracted at different angles, accordingly their directions of progression are different. By eliminating the radiation of other wavelengths with an aperture and/or a dumper, it is possible to irradiate a mask only with EUV radiation of high purity. | 10-29-2009 |
20090289205 | MIRROR FOR EXTREME ULTRA VIOLET, MANUFACTURING METHOD FOR MIRROR FOR EXTREME ULTRA VIOLET, AND FAR ULTRAVIOLET LIGHT SOURCE DEVICE - The EUV light source device eliminates radiation other than EUV radiation from the light which it emits, and supplies only the EUV radiation to an exposure device. A composite layer consisting of a plurality of Mo/Si pair layers is provided upon the front surface of an EUV collector mirror, and blazed grooves are formed in this composite layer. Radiation emitted from a plasma is incident upon this EUV collector mirror, and is reflected or diffracted. The reflected EUV radiation (including diffracted EUV) proceeds towards an intermediate focal point IF. The radiation of other wavelengths proceeds towards some position other than this focal point IF, because its reflection angle or diffraction angle is different. A SPF shield having an aperture portion is provided at the focal point IF. Accordingly, only the EUV radiation passes through the aperture portion and is supplied to the exposure device, while the other radiation is intercepted by the shield. | 11-26-2009 |
20100213395 | EXTREME ULTRAVIOLET LIGHT SOURCE APPARATUS - In an extreme ultraviolet light source apparatus generating an extreme ultraviolet light from a plasma generated by irradiating a target, which is a droplet D of molten Sn, with a laser light, and controlling the flow direction of ion generated at the generation of the extreme ultraviolet light by a magnetic field or an electric field, an ion collection cylinder | 08-26-2010 |
20120097869 | EXTREME ULTRAVIOLET LIGHT SOURCE APPARATUS - In an extreme ultraviolet light source apparatus generating an extreme ultraviolet light from a plasma generated by irradiating a target, which is a droplet D of molten Sn, with a laser light, and controlling the flow direction of ion generated at the generation of the extreme ultraviolet light by a magnetic field or an electric field, an ion collection cylinder | 04-26-2012 |
20120248342 | MIRROR FOR EXTREME ULTRA VIOLET, MANUFACTURING METHOD FOR MIRROR FOR EXTREME ULTRA VIOLET, AND FAR ULTRAVIOLET LIGHT SOURCE DEVICE - An EUV light source is configured for generating an EUV light for an exposure device. The EUV light source includes a chamber, a target supply device configured for supplying a target into the chamber, an optical system for introducing laser light from a driver laser into the chamber and irradiating the target with the laser light to turn the target into plasma from which EUV light is emitted, and an EUV collector mirror in the chamber. The EUV collector mirror may include a multilayered reflecting surface with grooves and collect the EUV light from the plasma to a focal spot. The grooves can be arranged in a concentric fashion, and be configured for diffracting at least light at a wavelength which is the same as that of the laser light from the driver laser. | 10-04-2012 |
20120256105 | SEMICONDUCTOR EXPOSURE DEVICE USING EXTREME ULTRA VIOLET RADIATION - The exposure device is able to supply only EUV radiation to a mask, while eliminating radiation other than the EUV radiation. A multi layer made from a plurality of Mo/Si pair layers is provided upon the front surface of a mirror, and blazed grooves are formed in this multi layer. Radiation which is incident from a light source device is incident upon this mirror, and is reflected or diffracted. Since the reflected EUV radiation (including diffracted EUV radiation) and the radiation of other wavelengths are reflected or diffracted at different angles, accordingly their directions of progression are different. By eliminating the radiation of other wavelengths with an aperture and/or a dumper, it is possible to irradiate a mask only with EUV radiation of high purity. | 10-11-2012 |
Patent application number | Description | Published |
20090261242 | APPARATUS FOR AND METHOD OF WITHDRAWING IONS IN EUV LIGHT PRODUCTION APPARATUS - An ion withdrawal apparatus that withdraws ions emitted from a plasma in an EUV light production apparatus in which a target at an EUV light production point is irradiated with laser light to be made in a plasma state and the target emits EUV light, the ion withdrawal apparatus which includes: a collector mirror that is disposed in a direction opposite to a laser light incidence direction to collect the EUV light and has a hole for the ions to pass therethrough; magnetic line of force production means that produces a magnetic line of force that is parallel or approximately parallel to the laser light incidence direction at or in the vicinity of the EUV light production point; and ion withdrawal means that is disposed on the opposite side of the collector mirror from the EUV light production point and withdraws the ions. | 10-22-2009 |
20100176312 | EXTREME ULTRA VIOLET LIGHT SOURCE APPARATUS - In a laser produced plasma type extreme ultra violet light source apparatus, charged particles such as ions emitted from plasma can be efficiently ejected by the action of a magnetic field and secondary production of contaminants can be suppressed. The extreme ultra violet light source apparatus includes: a target nozzle for supplying a target material; a laser oscillator for applying a laser beam to the target material supplied by the target nozzle to generate plasma; an EUV collector mirror for collecting extreme ultra violet light radiated from the plasma; and an electromagnet for forming a magnetic field in a position where the laser beam is applied to the target material, wherein an aperture of the electromagnet is formed according to a shape of lines of magnetic flux of the magnetic field. | 07-15-2010 |
20120217414 | APPARATUS FOR AND METHOD OF WITHDRAWING IONS IN EUV LIGHT PRODUCTION APPARATUS - An ion withdrawal apparatus that withdraws ions emitted from a plasma in an EUV light production apparatus in which a target at an EUV light production point is irradiated with laser light to be made in a plasma state and the target emits EUV light, the ion withdrawal apparatus which includes: a collector mirror that is disposed in a direction opposite to a laser light incidence direction to collect the EUV light and has a hole for the ions to pass therethrough; magnetic line of force production means that produces a magnetic line of force that is parallel or approximately parallel to the laser light incidence direction at or in the vicinity of the EUV light production point; and ion withdrawal means that is disposed on the opposite side of the collector mirror from the EUV light production point and withdraws the ions. | 08-30-2012 |
20120261596 | EXTREME ULTRA VIOLET LIGHT SOURCE DEVICE - An extreme ultra violet light source device of a laser produced plasma type, in which charged particles such as ions emitted from plasma can be efficiently ejected. The extreme ultra violet light source device includes: a target nozzle that supplies a target material; a laser oscillator that applies a laser beam to the target material supplied from the target nozzle to generate plasma; collector optics that collects extreme ultra violet light radiated from the plasma; and a magnetic field forming unit that forms an asymmetric magnetic field in a position where the laser beam is applied to the target material. | 10-18-2012 |
Patent application number | Description | Published |
20090261277 | Extreme ultra violet light source apparatus - In an extreme ultra violet light source apparatus of a laser produced plasma type, charged particles such as ions emitted from plasma are promptly ejected to the outside of a chamber. The extreme ultra violet light source apparatus includes a chamber in which extreme ultra violet light is generated, a target supply unit for supplying a target material to a predetermined position within the chamber, a driver laser for applying a laser beam to the target material supplied by the target supply unit to generate plasma, a collector mirror for collecting the extreme ultra violet light radiated from the plasma to output the extreme ultra violet light, a magnetic field forming unit for forming an asymmetric magnetic field in a generation position of the plasma by using a coil, and a charged particle collection mechanism provided on at least one of two surfaces of the chamber to which lines of magnetic force generated by the coil extend. | 10-22-2009 |
20110163247 | EXTREME ULTRA VIOLET LIGHT SOURCE APPARATUS - In an extreme ultra violet light source apparatus of a laser produced plasma type, charged particles such as ions emitted from plasma are promptly ejected to the outside of a chamber. The extreme ultra violet light source apparatus includes a chamber in which extreme ultra violet light is generated, a target supply unit for supplying a target material to a predetermined position within the chamber, a driver laser for applying a laser beam to the target material supplied by the target supply unit to generate plasma, a collector mirror for collecting the extreme ultra violet light radiated from the plasma to output the extreme ultra violet light, a magnetic field forming unit for forming an asymmetric magnetic field in a generation position of the plasma by using a coil, and a charged particle collection mechanism provided on at least one of two surfaces of the chamber to which lines of magnetic force generated by the coil extend. | 07-07-2011 |