Patent application number | Description | Published |
20090014917 | Drop Pattern Generation for Imprint Lithography - Generating a fluid drop pattern for an imprint lithography process includes selecting an imprinting surface and generating a fluid drop pattern including drop locations for placement of a multiplicity of drops of substantially equal volume on an imprint lithography substrate. The fluid drop pattern is generated through one or more modified Lloyd's method iterations. The fluid drop pattern allows substantially complete filling of imprinting surface features and formation of a substantially uniform residual layer during the imprint lithography process. | 01-15-2009 |
20090115110 | Drop Pattern Generation for Imprint Lithography - Generating a fluid drop pattern for an imprint lithography process includes selecting an imprinting surface with features and generating a fluid drop pattern including drop locations for placement of a multiplicity of drops of substantially equal volume on an imprint lithography substrate such that some of the drops are substantially aligned with at least some of the features. The fluid drop pattern is generated through an optimization process. The fluid drop pattern allows substantially complete filling of imprinting surface features and formation of a substantially uniform residual layer during the imprint lithography process. | 05-07-2009 |
20090140445 | High Throughput Imprint Based on Contact Line Motion Tracking Control - Systems and methods for controlling velocity of a contact line and height profile between a template and a substrate during imprinting of polymerizable material are described. | 06-04-2009 |
20090147237 | Spatial Phase Feature Location - Methods for locating an alignment mark on a substrate are described. Generally, the substrate includes one or more locator marks adjacent to a substrate alignment mark. Locator marks provide the relative location of the substrate alignment mark such that the substrate alignment mark may be used in aligning a substrate with a template within a lithographic system with a reduced magnitude of relative displacement. | 06-11-2009 |
20090148032 | Alignment Using Moire Patterns - Methods of determining relative spatial parameters between two substrates in a process of alignment are described. Generally, multiple alignment data may be collected from phase information using a pair of alignment marks. | 06-11-2009 |
20090169662 | Enhanced Multi Channel Alignment - An imprint lithography system operable for imprinting a pattern into a material deposited between an imprint mold and a substrate, the system including, inter alia, a first set of imaging units positioned at a first angle relative to normal of the substrate; and a second set of imaging units positioned at a second angle relative to normal of the substrate, wherein the first and second angles are not equal to each other. | 07-02-2009 |
20100038827 | Interferometric Analysis Method for the Manufacture of Nano-Scale Devices - The present invention features a method to determine relative spatial parameters between two coordinate systems, which may be a mold and a region of a substrate in which mold is employed to generate a pattern. The method includes sensing relative alignment between the two coordinate systems at multiple points and determines relative spatial parameters therebetween. The relative spatial parameters include a relative area and a relative shape. | 02-18-2010 |
20100097590 | ROBUST OPTIMIZATION TO GENERATE DROP PATTERNS IN IMPRINT LITHOGRAPHY WHICH ARE TOLERANT OF VARIATIONS IN DROP VOLUME AND DROP PLACEMENT - Imprint lithography may comprise generating a fluid map, generating a fluid drop pattern, and applying a fluid to a substrate according to the fluid drop pattern. The fluid drop pattern may be generated using a stochastic process such as a Monte Carlo or structured experiment over the expected range of process variability for drop locations and drop volumes. Thus, variability in drop placement, volume, or both may be compensated for, resulting in surface features being substantially filled with the fluid during imprint. | 04-22-2010 |
20100098859 | Drop Pattern Generation with Edge Weighting - Imprint lithography may comprise generating a fluid map, generating a fluid drop pattern, and applying a fluid to a substrate according to the fluid drop pattern. The fluid drop pattern may be generated using edge weighting through one or more modified Lloyd's method iterations to result in surface features being substantially filled with the fluid during imprint. | 04-22-2010 |
20100102487 | Optical System for Use in Stage Control - Imprint lithography benefits from precise alignment between a template and a substrate during imprinting. A moiré signal resulting from indicia on the template and the substrate are acquired by a system comprising a line-scan camera and a digital micromirror device (DMD) which provides a high bandwidth, low-latency signal. Once acquired, the moiré signal may be used directly to align the template and the substrate without need for discrete position/angle encoders. | 04-29-2010 |
20100104747 | Drop Deposition Control - A dispense controller and a tool controller may aid in providing a drop pattern of fluid on a substrate. The dispense controller may provide dispense coordinates to a fluid dispense system based on the drop pattern. The tool controller may control movement of a stage and also provide synchronization pulses to the fluid dispense system. The fluid dispense system may provide the drop pattern of fluid on the substrate using the dispense coordinates and the synchronization pulses. | 04-29-2010 |
20100110434 | Alignment for Edge Field Nano-Imprinting - Systems and methods for alignment of template and substrate at the edge of substrate are described. | 05-06-2010 |
20100112220 | DISPENSE SYSTEM SET-UP AND CHARACTERIZATION - The present application describes methods and systems for setting up and characterizing fluid dispensing systems. The methods and systems characterize the fluid dispensing systems and associate the characterizations with the corresponding fluid dispensing systems. | 05-06-2010 |
20100286811 | Residual Layer Thickness Measurement and Correction - In nano-imprint lithography it is important to detect thickness non-uniformity of a residual layer formed on a substrate. Such non-uniformity is compensated such that a uniform residual layer may be formed. Compensation is performed by calculating a corrected fluid drop pattern. | 11-11-2010 |