Patent application number | Description | Published |
20080218747 | Method and Apparatus for Detecting Surface Characteristics on a Mask Blank - An optical system and method configured to detect surface height variations on a mask blank. The optical system comprises a Wollaston prism, optics and first and second detectors. The Wollaston prism splits an incident beam of radiation into a first beam and a second beam. The first beam has a first polarization. The second beam has a second polarization. The optics directs the first and second beams along first and second paths onto first and second illuminated areas on a surface of the mask blank. The first and second illuminated areas reflect or transmit portions of the first and second beams to produce first and second reflected or transmitted beams. The first and second detectors detect the first and second reflected or transmitted beams and produce first and second signals in response to the first and second reflected or transmitted beams. A multiple way coupler may also be used for detecting height variation or other features on a mask blank. Two substantially parallel optical incident radiation beams are transmitted to the mask blank. The multiple way coupler mixes portions of the two beams after they have been reflected or transmitted by two different areas of said mask blank to provide three or more outputs which can be analyzed to provide information on height variation or other features on the mask blank. | 09-11-2008 |
20080226157 | Inspection methods and systems for lithographic masks - Disclosed are apparatus and methods for finding lithographically significant defects on a reticle. In general, at least a pair of related intensity images of the reticle in question are obtained using an inspection apparatus. The intensity images are obtained such that each of the images experience different focus settings for the reticle so that there is a constant focus offset between the two focus values of the images. These images are then analyzed to obtain a transmission function of the reticle. This transmission function is then input into a model of the lithography system (e.g., a stepper, scanner, or other related photolithography system) to then produce an aerial image of the reticle pattern. The aerial image produced can then be input to a photoresist model to yield a “resist-modeled image” that corresponds to an image pattern to be printed onto the substrate using the reticle. This resist-modeled image can then be compared with a reference image to obtain defect information. In particular, due to the introduction of the lithography tool and photoresist model, this defect information pertains to lithographically significant defects. | 09-18-2008 |
20110181868 | INSPECTION SYSTEMS AND METHODS FOR DETECTING DEFECTS ON EXTREME ULTRAVIOLET MASK BLANKS - Provided are novel inspection methods and systems for inspecting unpatterned objects, such as extreme ultraviolet (EUV) mask blanks, for surface defects, including extremely small defects. Defects may include various phase objects, such as bumps and pits that are only about 1 nanometer in height, and small particles. Inspection is performed at wavelengths less than about 250 nanometers, such as a reconfigured deep UV inspection system. A partial coherence sigma is set to between about 0.15 and 0.5. Phase defects can be found by using one or more defocused inspection passes, for example at one positive depth of focus (DOF) and one negative DOF. In certain embodiments, DOF is between about −1 to −3 and/or +1 to +3. The results of multiple inspection passes can be combined to differentiate defect types. Inspection methods may involve applying matched filters, thresholds, and/or correction factors in order to improve a signal to noise ratio. | 07-28-2011 |
20120238096 | METHOD AND APPARATUS FOR INSPECTING A REFLECTIVE LITHOGRAPHIC MASK BLANK AND IMPROVING MASK QUALITY - An EUV integrated circuit fabrication method and system EUV that includes blank inspection, defect characterization, simulation, pattern compensation, modification of the mask writer database, inspection and simulation of patterned masks, and patterned mask repair. The system performs blank inspection to identify defects at multiple focal planes within the blank. The mask can be relocated on the blank and alterations to the pattern can be developed to compensate for the defects prior to prior to patterning the mask. Once the mask has been patterned, the reticle is inspected to identify any additional or remaining defects that were not picked up during blank inspection or fully mitigated through pattern compensation. The patterned reticle can then be repaired prior to integrated circuit fabrication. | 09-20-2012 |
20130336574 | APPARATUS AND METHODS FOR INSPECTING EXTREME ULTRA VIOLET RETICLES - Disclosed are methods and apparatus for inspecting an extreme ultraviolet (EUV) reticle is disclosed. An optical inspection tool is used to obtain a phase defect map for the EUV reticle before a pattern is formed on the EUV reticle, and the phase defect map identifies a position of each phase defect on the EUV reticle. After the pattern is formed on the EUV reticle, a charged particle tool is used to obtain an image of each reticle portion that is proximate to each position of each phase defect as identified in the phase defect map. The phase defect map and one or images of each reticle portion that is proximate to each position of each phase defect are displayed or stored so as to facilitate analysis of whether to repair or discard the EUV reticle. | 12-19-2013 |
20140307943 | INSPECTING HIGH-RESOLUTION PHOTOLITHOGRAPHY MASKS - Optical inspection methods and apparatus for high-resolution photomasks using only a test image. A filter is applied to an image signal received from radiation that is transmitted by or reflected from a photomask having a test image. The filter may be implemented using programmed control to adjust and control filter conditions, illumination conditions, and magnification conditions. | 10-16-2014 |