Patent application number | Description | Published |
20080239268 | Lithographic apparatus and method - A device manufacturing method includes conditioning a beam of radiation using an illumination system. The conditioning includes controlling an array of individually controllable elements and associated optical components of the illumination system to convert the radiation beam into a desired illumination mode, the controlling including allocating different individually controllable elements to different parts of the illumination mode in accordance with an allocation scheme, the allocation scheme selected to provide a desired modification of one or more properties of the illumination mode, the radiation beam or both. The method also includes patterning the radiation beam with a pattern in its cross-section to form a patterned beam of radiation, and projecting the patterned radiation beam onto a target portion of a substrate. | 10-02-2008 |
20090033902 | Lithographic apparatus and method - A device manufacturing method includes conditioning a beam of radiation using an illumination system. The conditioning includes controlling an array of individually controllable elements and associated optical components of the illumination system to convert the radiation beam into a desired illumination mode, the controlling including allocating different individually controllable elements to different parts of the illumination mode in accordance with an allocation scheme, the allocation scheme selected to provide a desired modification of one or more properties of the illumination mode, the radiation beam or both. The method also includes patterning the radiation beam having the desired illumination mode with a pattern in its cross-section to form a patterned beam of radiation, and projecting the patterned radiation beam onto a target portion of a substrate. | 02-05-2009 |
20090174877 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A lithographic projection system has an illumination system with a polarization member. A plurality of directing elements reflect different sub-beams of an incident beam into adjustable, individually controllable directions. By means of re-directing optics any desired polarized spatial intensity distribution of the beam can be produced in its cross-sectional plane. | 07-09-2009 |
20100167183 | METHOD AND APPARATUS FOR PERFORMING MODEL-BASED LAYOUT CONVERSION FOR USE WITH DIPOLE ILLUMINATION - A method of generating complementary masks for use in a multiple-exposure lithographic imaging process. The method includes the steps of: identifying a target pattern having a plurality of features comprising horizontal and vertical edges; generating a horizontal mask based on the target pattern; generating a vertical mask based on the target pattern; performing a shielding step in which at least one of the vertical edges of the plurality of features in the target pattern is replaced by a shield in the horizontal mask, and in which at least one of the horizontal edges of the plurality of features in the target pattern is replaced by a shield in the vertical mask, where the shields have a width which is greater that the width of the corresponding feature in the target pattern; performing an assist feature placement step in which sub-resolution assist features are disposed parallel to at least one of the horizontal edges of the plurality of features in the horizontal mask, and are disposed parallel to at least one of the vertical edges of the plurality of features in the vertical mask, and performing a feature biasing step in which at least one of the horizontal edges of the plurality of features in the horizontal mask are adjusted such that the resulting feature accurately reproduces the target pattern, and at least one of the vertical edges of the plurality of features in the vertical mask are adjusted such that the resulting feature accurately reproduces the target pattern. | 07-01-2010 |
20120075610 | LITHOGRAPHIC APPARATUS AND METHOD FOR REDUCING STRAY RADIATION - A lithographic apparatus includes an illumination system for providing a beam of extreme ultra-violet radiation, a masking device for controlling the illumination of a patterning device by the beam of radiation, a support for supporting the patterning device, the patterning device configured to impart a pattern to the beam of radiation, a substrate table for holding a substrate, and a projection system for projecting the patterned beam of radiation onto a target portion of the substrate. The masking device includes a masking blade including a masking edge configured to delimit a boundary of an illumination region on the patterning device. The masking blade is configured to reflect extreme ultra-violet radiation incident on the masking blade such that at least a portion of the reflected radiation is not captured by the projection system. | 03-29-2012 |
20120147346 | Lithographic Apparatus and Method - A lithographic apparatus comprising a source that generates a beam of radiation, a support structure supporting a patterning device, a substrate table for holding a substrate, and a projection system projecting the patterned radiation beam onto a target portion of the substrate. The lithographic apparatus further comprises a vibration measurement apparatus configured to measure relative vibration between the patterning device and the substrate during exposure of the target portion. A control apparatus adjusts power of the radiation beam to compensate for the effect of the measured relative vibration on the pattern projected onto the substrate. | 06-14-2012 |
20130001442 | RADIATION SOURCE AND LITHOGRAPHIC APPARATUS - A radiation source includes a fuel supply configured to deliver fuel to a plasma emission location for vaporization by a laser beam to form a plasma, and a collector configured to collect EUV radiation emitted by the plasma and direct the EUV radiation towards an intermediate focus. The collector includes a diffraction grating configured to diffract infrared radiation emitted by the plasma. The radiation source includes a radiation conduit located in between the collector and the intermediate focus. The radiation conduit includes an entrance aperture connected by an inwardly tapering body to an exit aperture. The radiation conduit includes an inner portion and an outer portion, the inner portion being closer to the intermediate focus than the outer portion. The inner portion is configured to reflect incident diffracted infrared radiation towards the outer portion. | 01-03-2013 |
20130194562 | Lithographic Apparatus and Device Manufacturing Method - A lithographic apparatus comprising a source of EUV radiation, an illumination system configured to condition a radiation beam, and a projection system configured to project the radiation beam onto a substrate, wherein the apparatus further comprises a filter configured to prevent or reduce the transmission of unwanted radiation and an apparatus configured to detect damage of the filter, wherein the damage detection apparatus comprises an antenna configured to receive radio waves and an analysis apparatus configured to determine the presence of filter damage based upon the received radio waves. | 08-01-2013 |