| Patent application number | Description | Published |
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| 20080259458 | EUV diffractive optical element for semiconductor wafer lithography and method for making same - According to one exemplary embodiment, an EUV (extreme ultraviolet) optical element in a light path between an EUV light source and a semiconductor wafer includes a reflective film having a number of bilayers. The reflective film includes a pattern, where the pattern causes a change in incident EUV light from the EUV light source, thereby controlling illumination at a pupil plane of an EUV projection optic to form a printed field on the semiconductor wafer. The EUV optical element can be utilized in an EUV lithographic process to fabricate a semiconductor die. | 10-23-2008 |
| 20080292991 | HIGH FIDELITY MULTIPLE RESIST PATTERNING - An integrated circuit fabrication process as described herein employs a double photoresist exposure technique. After creation of a first pattern of photoresist features on a wafer, a second photoresist layer is formed over the first pattern of photoresist features. The second photoresist layer is subjected to a reflow step that softens and relaxes the second photoresist material. This reflow step causes the exposed surface of the second photoresist layer to become substantially planar. Thereafter, the second photoresist layer can be exposed and developed to create a second pattern of photoresist features on the wafer. The planar surface of the second photoresist layer, which results from the reflow step, facilitates the creation of accurate, precise, and “high fidelity” photoresist features from the second photoresist material. | 11-27-2008 |
| 20090040483 | MULTIPLE EXPOSURE TECHNIQUE USING OPC TO CORRECT DISTORTION - Accurate ultrafine patterns are formed using a multiple exposure technique comprising implementing an OPC procedure to form an exposure reticle to compensate for distortion of an overlying resist pattern caused by an underlying resist pattern. Embodiments include forming a first resist pattern in a first resist layer over a target layer using a first exposure reticle, forming a second exposure reticle by an OPC technique to compensate for distortion of a second resist pattern caused by the underlying first resist pattern, depositing a second resist layer on the first resist pattern, forming the second resist pattern in the second resist layer using the second exposure reticle, the first and second resist patterns constituting a final resist mask, and forming a pattern in the target layer using the final resist mask. | 02-12-2009 |
| 20100099045 | METHODS FOR PERFORMING PHOTOLITHOGRAPHY USING BARCS HAVING GRADED OPTICAL PROPERTIES - Photolithography methods using BARCs having graded optical properties are provided. In an exemplary embodiment, a photolithography method comprises the steps of depositing a BARC overlying a material to be patterned, the BARC having a refractive index and an absorbance. The BARC is modified such that, after the step of modifying, values of the refractive index and the absorbance are graded from first values at a first surface of the BARC to second values at a second surface of the BARC. The step of modifying is performed after the step of depositing. | 04-22-2010 |
| 20100311242 | METHODS FOR FABRICATING SEMICONDUCTOR DEVICES - Methods are provided for fabricating a semiconductor device. One method comprises providing a first pattern having a first polygon, the first polygon having a first tonality and having a first side and a second side, the first side adjacent to a second polygon having a second tonality, and the second side adjacent to a third polygon having the second tonality, and forming a second pattern by reversing the tonality of the first pattern. The method further comprises forming a third pattern from the second pattern by converting the second polygon from the first tonality to the second tonality forming a fourth pattern from the second pattern by converting the third polygon from the first tonality to the second tonality forming a fifth pattern by reversing the tonality of the third pattern, and forming a sixth pattern by reversing the tonality of the fourth pattern. | 12-09-2010 |
| 20110079779 | SHAPE CHARACTERIZATION WITH ELLIPTIC FOURIER DESCRIPTOR FOR CONTACT OR ANY CLOSED STRUCTURES ON THE CHIP - Shapes and orientations of contacts or other closed contours on an integrated circuit are characterized by calculating Elliptic Fourier descriptors. The descriptors are then used for generating design rules for the integrated circuit and for assessing process capability for the manufacturing of the integrated circuit. Monte Carlo simulation can be performed in conjunction with the elliptic Fourier descriptors. | 04-07-2011 |
| Patent application number | Description | Published |
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| 20100140685 | Nonvolatile Memory Devices - Nonvolatile memory devices and methods of manufacturing nonvolatile memory devices are provided. The method includes patterning a bulk substrate to form an active pillar; forming a charge storage layer on a side surface of active pillar; and forming a plurality of gates connected to the active pillar, the charge storage layer being disposed between the active pillar and the gates. Before depositing a gate, a bulk substrate is etched using a dry etching to form a vertical active pillar which is in a single body with a semiconductor substrate. | 06-10-2010 |
| 20100213521 | Semiconductor devices and methods of forming semiconductor devices - A semiconductor device includes a back bias dielectric including a negative fixed charge, a gate electrode overlapping the back bias dielectric, a semiconductor layer disposed between the gate electrode and the back bias dielectric, and a gate dielectric disposed between the semiconductor layer and the gate electrode, wherein the negative fixed charge accumulates holes at a surface of the semiconductor layer facing the back bias dielectric. | 08-26-2010 |
| 20100213524 | Semiconductor memory device and method of manufacturing the same - A semiconductor memory device includes a plurality of active pillars protruding from a semiconductor substrate, a first gate electrode disposed on at least one sidewall of the active pillar, a first gate insulating layer being disposed between the active pillar and the first gate electrode, a second gate electrode disposed on at least one sidewall of the active pillar over the first gate electrode, a second gate insulating layer being disposed between the active pillar and the second gate electrode, first and second body regions in the active pillar adjacent to respective first and second respective electrodes, and first through third source/drain regions in the active pillar arranged alternately with the first and second body regions. | 08-26-2010 |
| 20100224923 | Semiconductor memory device and method of manufacturing the same - Provided are a semiconductor memory device and a method of manufacturing the same. The semiconductor memory device may include a plurality of active pillars projecting from a semiconductor substrate, a gate pattern disposed on at least a portion of each of the active pillars with a gate insulator interposed therebetween, and a conductive line disposed on each of the active pillars and below the corresponding gate pattern, the conductive line may be insulated from the semiconductor substrate and the gate pattern, wherein each of the active pillars may include a drain region above the corresponding gate pattern, a body region adjacent to the corresponding gate pattern, and a source region that is in contact with the conductive line below the gate pattern. | 09-09-2010 |
