| Patent application number | Description | Published |
|---|
| 20080220615 | METHOD FOR PRODUCING SELF-ALIGNED MASK, ARTICLES PRODUCED BY SAME AND COMPOSITION FOR SAME - A method for forming a self-aligned pattern on an existing pattern on a substrate comprising applying a coating of a solution containing a masking material in a carrier, the masking material being either photo or thermally sensitive; performing a blanket exposure of the substrate; and allowing at least a portion of the masking material to preferential develop in a fashion that is replicates the existing pattern of the substrate. The existing pattern may be comprised of a first set of regions of the substrate having a first reflectivity and a second set of regions of the substrate having a second reflectivity different from the first composition. The first set of regions may include one or more metal elements and the second set of regions may include a dielectric. Structures made in accordance with the method. | 09-11-2008 |
| 20090011342 | METHOD TO OPTIMIZE GRATING TEST PATTERN FOR LITHOGRAPHY MONITORING AND CONTROL - A method of making a process monitor grating pattern for use in a lithographic imaging system comprises determining minimum resolvable pitch of a plurality of spaced, adjacent line elements, and selecting a process monitor grating period that is an integer multiple M, greater than 1, of the minimum resolvable pitch. The method then includes designing a process monitor grating pattern having a plurality of adjacent sets of grouped line elements spaced from each other. Each set of grouped line elements is spaced from and parallel to an adjacent set of grouped line elements by the process monitor grating period, such that when the process monitor grating pattern is projected by the lithographic imaging system the line elements in each set are unresolvable from each other and Fourier coefficients of diffracted orders m created by the line elements in the range of 1<|m|≦M are zero. | 01-08-2009 |
| 20090011346 | FOCUS BLUR MEASUREMENT AND CONTROL METHOD - A method for optimizing imaging and process parameter settings in a lithographic pattern imaging and processing system. The method includes correlating the dimensions of a first set of at least one control pattern printed in a lithographic resist layer, measured at three or more locations on or within the pattern which correspond to differing dose, defocus and blur sensitivity. The method then includes measuring the dimensions on subsequent sets of control patterns, printed in a lithographic resist layer, at three or more locations on or within each pattern, of which a minimum of three locations match those measured in the first set, and determining the effective dose, defocus and blur values associated with forming the subsequent sets of control patterns by comparing the dimensions at the matching locations with the correlated dependencies. | 01-08-2009 |
| 20090208865 | PHOTOLITHOGRAPHY FOCUS IMPROVEMENT BY REDUCTION OF AUTOFOCUS RADIATION TRANSMISSION INTO SUBSTRATE - An anti-reflective coating material, a microelectronic structure that includes an anti-reflective coating layer formed from the anti-reflective coating material and a related method for exposing a resist layer located over a substrate while using the anti-reflective coating layer provide for attenuation of secondary reflected vertical alignment beam radiation when aligning the substrate including the resist layer located thereover. Such enhanced vertical alignment provides for improved dimensional integrity of a patterned resist layer formed from the resist layer, as well as additional target layers that may be fabricated while using the resist layer as a mask. | 08-20-2009 |
| 20090262317 | TEST METHOD FOR DETERMINING RETICLE TRANSMISSION STABILITY - Methods, systems and apparatus for monitoring the state of a reticle by providing a reticle having a device exposure region in an imaging tool, defining one or more image fields across the device exposure region, and transmitting energy through the device exposure region. A detector detects the energy in the image field(s) at one or more testing intervals and a system control generates a transmission profile of average energy transmissions for each image field. Using this transmission profile, the state of the reticle is then determined at each testing interval followed by taking action based on the reticle state. The state of the reticle identifies whether the device exposure region has been deleteriously degraded, and as such, the reticle is no longer suitable for use. This is accomplished by determining if any average energy transmission of any image field across the reticle exceeds an allowable energy transmission threshold. | 10-22-2009 |
| 20090265679 | SYSTEM AND METHOD OF PREDICTING PROBLEMATIC AREAS FOR LITHOGRAPHY IN A CIRCUIT DESIGN - A system and method is provided which predicts problematic areas for lithography in a circuit design, and more specifically, which uses modeling data from a modeling tool to accurately predict problematic lithographic areas. The method includes identifying surface heights of plurality of tiles of a modeled wafer, and mathematically mimicking a lithographic tool to determine best planes of focus for exposure for the plurality of tiles. | 10-22-2009 |
| 20110184715 | SYSTEM AND METHOD OF PREDICTING PROBLEMATIC AREAS FOR LITHOGRAPHY IN A CIRCUIT DESIGN - A system and method is provided which predicts problematic areas for lithography in a circuit design, and more specifically, which uses modeling data from a modeling tool to accurately predict problematic lithographic areas. The method includes identifying surface heights of plurality of tiles of a modeled wafer, and mathematically mimicking a lithographic tool to determine best planes of focus for exposure for the plurality of tiles. | 07-28-2011 |
| 20110205509 | TEST METHOD FOR DETERMINING RETICLE TRANSMISSION STABILITY - Methods, systems and apparatus for monitoring the state of a reticle by providing a reticle having a device exposure region in an imaging tool, defining one or more image fields across the device exposure region, and transmitting energy through the device exposure region. A detector detects the energy in the image field(s) at one or more testing intervals and a system control generates a transmission profile of average energy transmissions for each image field. Using this transmission profile, the state of the reticle is then determined at each testing interval followed by taking action based on the reticle state. The state of the reticle identifies whether the device exposure region has been deleteriously degraded, and as such, the reticle is no longer suitable for use. This is accomplished by determining if any average energy transmission of any image field across the reticle exceeds an allowable energy transmission threshold. | 08-25-2011 |
