Patent application number | Description | Published |
20090153830 | Device for Transmission Image Detection for Use in a Lithographic Projection Apparatus and a Method for Determining Third Order Distortions of a Patterning Device and/or a Projection System of Such a Lithographic Apparatus - Embodiments of the invention relate to a device for transmission image detection for use in a lithographic projection apparatus. In an embodiment, the device includes an array of gratings and an array of radiation sensitive sensors, each of which is arranged to receive radiation coming through one of the gratings. The array of radiation sensitive sensors may be a 1-dimensional diode array. | 06-18-2009 |
20090168039 | Device Manufacturing Method and Lithographic Apparatus - A device manufacturing method includes a measurement phase and an exposure phase. The measurement phase includes conditioning a radiation beam with a first beam condition, forming the patterned radiation beam by imparting the radiation beam with the first beam condition with a first pattern in its cross-section, and projecting the patterned beam onto a sensor capable of providing a sensor output signal. The exposure phase includes fast switching the conditioning of the radiation beam to a second beam condition, the second beam condition being different from the first beam condition, forming the patterned radiation beam by imparting the radiation beam with the second beam condition with a second pattern in its cross-section, the second pattern being provided by a patterning device, and projecting the patterned beam onto a target portion of the substrate. | 07-02-2009 |
20090213351 | Lithographic Method to Apply a Pattern to a Substrate and Lithographic Apparatus - A slit shaped area of a patterning device is illuminated to impart a radiation beam with a pattern in its cross-section. A projection system projects the patterned radiation beam onto a target portion of a substrate. As the radiation beam is scanned across the target portion of the substrate, a configuration of the projection system is adjusted and applies a pattern to the target portion. The adjusting may affect a magnitude of an image magnification component of the projection system, along the length of the slit shaped area, or an image distortion in a scan direction. The adjusting is arranged to compensate an effect on pattern overlay accuracy of a distortion of the patterning device. | 08-27-2009 |
20110043780 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - Disclosed is a method of determining higher order distortions of a patterning device of a lithographic apparatus, and associated apparatus. The higher order distortions are measured using the transmission imaging device. In a main embodiment, enhanced reticles are used which may have additional alignment gratings in the perimeter, in the scribe lanes of the image field or in the image field itself. | 02-24-2011 |
20120242967 | Lithographic Apparatus and Method - A lithographic apparatus comprising an illumination system for providing a beam of radiation, a support structure for supporting a patterning device, the patterning device serving to impart the radiation beam with a pattern in its cross-section, a substrate table for holding a substrate, and a projection system for projecting the patterned radiation beam onto a target portion of the substrate, wherein the lithographic apparatus further comprises a patterning device masking blade provided with a hole, a diffusing material being located at the hole. | 09-27-2012 |
20130235360 | Lithographic Method to Apply a Pattern to a Substrate and Lithographic Apparatus - A slit shaped area of a patterning device is illuminated to impart a radiation beam with a pattern in its cross-section. A projection system projects the patterned radiation beam onto a target portion of a substrate. As the radiation beam is scanned across the target portion of the substrate, a configuration of the projection system is adjusted and applies a pattern to the target portion. The adjusting may affect a magnitude of an image magnification component of the projection system, along the length of the slit shaped area, or an image distortion in a scan direction. The adjusting is arranged to compensate an effect on pattern overlay accuracy of a distortion of the patterning device. | 09-12-2013 |
20140293261 | Lithographic Method to Apply a Pattern to a Substrate and Lithographic Apparatus - A slit shaped area of a patterning device is illuminated to impart a radiation beam with a pattern in its cross-section. A projection system projects the patterned radiation beam onto a target portion of a substrate. As the radiation beam is scanned across the target portion of the substrate, a configuration of the projection system is adjusted and applies a pattern to the target portion. The adjusting may affect a magnitude of an image magnification component of the projection system, along the length of the slit shaped area, or an image distortion in a scan direction. The adjusting is arranged to compensate an effect on pattern overlay accuracy of a distortion of the patterning device. | 10-02-2014 |
20150077728 | SENSOR, LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A sensor for use in lithographic apparatus of an immersion type and which, in use, comes into contact with the immersion liquid is arranged so that the thermal resistance of a first heat path from a transducer of the sensor to a temperature conditioning device is less than the thermal resistance of a second heat flow path from the transducer to the immersion liquid. Thus, heat flow is preferentially towards the temperature conditioning device and not the immersion liquid so that temperature-induced disturbance in the immersion liquid is reduced or minimized. | 03-19-2015 |
Patent application number | Description | Published |
20090051934 | Method and apparatus for vibration detection and vibration analysis, and lithographic apparatus equipped with such an apparatus - The invention provides a method for determining vibration-related information by projecting an aerial image at an image position in a projection plane, mapping an intensity of the aerial image into an image map, the image map arranged for comprising values of coordinates of sampling locations and of the intensity sampled at each sampling location, and measuring intensity of the aerial image received through a slot pattern. The method further includes determining from the image map a detection position of a slope portion of the image map, at the detection position of the slope portion, measuring of a temporal intensity of the aerial image and measuring of relative positions of the slot pattern and the image position, the relative positions of the slot being measured as position-related data of the slot pattern and determining from the temporal intensity of the aerial image vibration-related information for said aerial image. | 02-26-2009 |
20100045956 | Lithographic Apparatus, Method for Determining at Least One Polarization Property Thereof, Polarization Analyzer and Polarization Sensor Thereof - A lithographic apparatus includes an illumination system configured to condition a radiation beam; a polarization sensor configured at least in part to couple to a reticle stage, wherein components of the reticle polarization sensor can be loaded and unloaded in the lithographic apparatus in the manner used for conventional reticles. In one configuration an active reticle tool includes a rotatable retarder configured to vary the retardation applied to polarized light received from a field point in the illumination system. In another configuration, a passive reticle tool is configured as an array of polarization sensor modules, where the amount of retardation applied to received light by fixed retarders varies according to position of the polarization sensor module. Accordingly, a plurality of retardation conditions for light received at a given field point can be measured, wherein a complete determination of a polarization state of the light at the given field point can be determined. In another configuration, the polarization sensor is configured to measure the effect of a projection lens on a polarization state of light passing through the projection lens. | 02-25-2010 |
20100118288 | Lithographic projection system and projection lens polarization sensor - A lithographic apparatus includes an illumination system configured to condition a radiation beam; a polarization sensor configured at least in part to couple to a reticle stage, wherein components of the reticle polarization sensor can be loaded and unloaded in the lithographic apparatus in the manner used for conventional reticles. In one configuration an active reticle tool includes a rotatable retarder configured to vary the retardation applied to polarized light received from a field point in the illumination system. In another configuration, a passive reticle tool is configured as an array of polarization sensor modules, where the amount of retardation applied to received light by fixed retarders varies according to position of the polarization sensor module. Accordingly, a plurality of retardation conditions for light received at a given field point can be measured, wherein a complete determination of a polarization state of the light at the given field point can be determined. In another configuration, the polarization sensor is configured to measure the effect of a projection lens on a polarization state of light passing through the projection lens. | 05-13-2010 |
20100182582 | Passive reticle tool, a lithographic apparatus and a method of patterning a device in a lithography tool - A lithographic apparatus includes an illumination system configured to condition a radiation beam; a polarization sensor configured at least in part to couple to a reticle stage, wherein components of the reticle polarization sensor can be loaded and unloaded in the lithographic apparatus in the manner used for conventional reticles. In one configuration an active reticle tool includes a rotatable retarder configured to vary the retardation applied to polarized light received from a field point in the illumination system. In another configuration, a passive reticle tool is configured as an array of polarization sensor modules, where the amount of retardation applied to received light by fixed retarders varies according to position of the polarization sensor module. Accordingly, a plurality of retardation conditions for light received at a given field point can be measured, wherein a complete determination of a polarization state of the light at the given field point can be determined. In another configuration, the polarization sensor is configured to measure the effect of a projection lens on a polarization state of light passing through the projection lens. | 07-22-2010 |
20130176547 | Lithographic Apparatus and a Method for Determining a Polarization Property - A lithographic apparatus includes an illumination system, a support, a patterning device, a substrate table, a projection system, and a detector. The apparatus further includes a polarization changing element, such as a quarter-wave plate, that is adjustable and a polarization analyzer, such as a linear polarizer. The polarization changing element and the polarization analyzer are arranged in order in the radiation beam path at the level at which a patterning device would be held by the support. By taking intensity measurements for different rotational orientations of the polarization changing element, information on the state of polarization of the radiation at the level of the patterning device can be obtained. Because the polarization analyzer is located before the projection system, the measurements are not affected by the fact that the detector is located after the projection system, such as at the level of the substrate. | 07-11-2013 |