Patent application number | Description | Published |
20080309892 | IN-LINE PARTICLE DETECTION FOR IMMERSION LITHOGRAPHY - An immersion lithography system, comprising a lens unit configured to project a pattern from an end thereof and onto a wafer, a hood unit configured to confine an immersion fluid to a region of the wafer surrounding the end of the lens unit, a wafer stage configured to position the wafer proximate the end of the lens unit, and at least one of an image capturing apparatus and a scattering light detection apparatus, wherein the image capturing apparatus is coupled to the wafer stage and is configured to capture an image of a surface of the hood unit proximate the wafer stage, and wherein the scattering light detection apparatus is proximate the end of the lens unit and the hood unit and is configured to detect particles on a surface of the wafer stage. | 12-18-2008 |
20110133347 | METHOD AND APPARATUS OF PROVIDING OVERLAY - Provided is an apparatus that includes an overlay mark. The overlay mark includes a first portion that includes a plurality of first features. Each of the first features have a first dimension measured in a first direction and a second dimension measured in a second direction that is approximately perpendicular to the first direction. The second dimension is greater than the first dimension. The overlay mark also includes a second portion that includes a plurality of second features. Each of the second features have a third dimension measured in the first direction and a fourth dimension measured in the second direction. The fourth dimension is less than the third dimension. At least one of the second features is partially surrounded by the plurality of first features in both the first and second directions. | 06-09-2011 |
20110267593 | METHOD AND APPARATUS FOR MAINTAINING DEPTH OF FOCUS - A method includes directing a beam of radiation along an optical axis toward a workpiece support, measuring a spectrum of the beam at a first time to obtain a first profile, measuring the spectrum of the beam at a second time to obtain a second profile, determining a spectral difference between the two profiles, and adjusting a position of the workpiece support along the optical axis based on the difference. A different aspect involves an apparatus having a workpiece support, beam directing structure that directs a beam of radiation along an optical axis toward the workpiece support, spectrum measuring structure that measures a spectrum of the beam at first and second times to obtain respective first and second profiles, processing structure that determines a difference between the two profiles, and support adjusting structure that adjusts a position of the workpiece support along the optical axis based on the difference. | 11-03-2011 |
20130056886 | Method and Apparatus of Providing Overlay - Provided is an apparatus that includes an overlay mark. The overlay mark includes a first portion that includes a plurality of first features. Each of the first features have a first dimension measured in a first direction and a second dimension measured in a second direction that is approximately perpendicular to the first direction. The second dimension is greater than the first dimension. The overlay mark also includes a second portion that includes a plurality of second features. Each of the second features have a third dimension measured in the first direction and a fourth dimension measured in the second direction. The fourth dimension is less than the third dimension. At least one of the second features is partially surrounded by the plurality of first features in both the first and second directions. | 03-07-2013 |
20130201463 | SYSTEM AND METHOD FOR LITHOGRAPHY WITH LEVELING SENSOR - Disclosed is a lithography system. The lithography system includes a radiation source for providing radiation energy; a reticle stage configured to hold a reticle; an imaging lens module configured to direct the radiation energy onto a substrate to form an image of the reticle; and a leveling sensor configured to receive a leveling signal from an exposure field of the reticle secured on the reticle stage. | 08-08-2013 |
20130229638 | SYSTEM AND METHOD FOR LITHOGRAPHY PATTERNING - Disclosed is a lithography system. The lithography system includes a lithography exposure tool designed for performing an exposure process to a radiation-sensitive material layer coated on an integrated circuit substrate; an alignment module coupled with the lithography exposure tool, designed for alignment measurement, and configured for transferring the integrated circuit substrate to the lithography exposure tool; and an alignment calibration module designed to calibrate the alignment module relative to the lithography exposure. | 09-05-2013 |
20130314708 | Method and Apparatus for Maintaining Depth of Focus - A method includes directing a beam of radiation along an optical axis toward a workpiece support, measuring a spectrum of the beam at a first time to obtain a first profile, measuring the spectrum of the beam at a second time to obtain a second profile, determining a spectral difference between the two profiles, and adjusting a position of the workpiece support along the optical axis based on the difference. A different aspect involves an apparatus having a workpiece support, beam directing structure that directs a beam of radiation along an optical axis toward the workpiece support, spectrum measuring structure that measures a spectrum of the beam at first and second times to obtain respective first and second profiles, processing structure that determines a difference between the two profiles, and support adjusting structure that adjusts a position of the workpiece support along the optical axis based on the difference. | 11-28-2013 |
20140111779 | METHOD OF OVERLAY PREDICTION - A method includes receiving a substrate having a material feature embedded in the substrate, wherein receiving the substrate includes receiving a first leveling data and a first overlay data generated when forming the material feature, deposing a resist film on the substrate, and exposing the resist film using a predicted overlay correction data to form a resist pattern overlying the material feature on the substrate, wherein using the predicted overlay correction data includes generating a second leveling data and calculating the predicted overlay correction data using the first leveling data, the first overlay data, and the second leveling data. | 04-24-2014 |