Patent application number | Description | Published |
20080197121 | METHOD AND DEVICE FOR CONTROLLING TEMPERATURE OF A SUBSTRATE USING AN INTERNAL TEMPERATURE CONTROL DEVICE - A substrate, thermal treatment assembly and method of operating the thermal treatment assembly are described for controlling the temperature of a substrate An electrical potential is applied across two or more locations on the substrate in order to generate an electrical current through a portion of the substrate, thereby altering a temperature of the substrate. The electrical current may dissipate electrical energy in the form of thermal energy due to the intrinsic resistance of the portion of substrate to the flow of electrical current. | 08-21-2008 |
20080220340 | APPARATUS AND METHOD FOR HEATING A LAYER CARRIED ON A ROTATING SUBSTRATE - Embodiments of an apparatus and methods for heating a substrate and a sacrificial layer are generally described herein. Other embodiments may be described and claimed. | 09-11-2008 |
20080233269 | APPARATUS AND METHODS FOR APPLYING A LAYER OF A SPIN-ON MATERIAL ON A SERIES OF SUBSTRATES - An apparatus and method for applying a fluid spin-on material on a surface of first and second substrates. A spin coating device is configured to dispense the fluid spin-on material to form a first layer on the surface of the first substrate. A metrology tool is configured to measure a first thickness profile of the first layer and generate data representing the first thickness profile. A processing unit is electrically coupled with the metrology tool and is configured to analyze the data received from the metrology unit and to determine a variation in the first thickness profile. The processing unit then determines an adjustment to an operational parameter of the spin coating device predicted to reduce a variation in a second thickness profile of a second layer subsequently formed by the spin coating device on a second substrate. | 09-25-2008 |
20080237214 | METHODS AND HEAT TREATMENT APPARATUS FOR UNIFORMLY HEATING A SUBSTRATE DURING A BAKE PROCESS - Methods and heat treatment apparatus for heating a substrate and any layer carried on the substrate during a bake process. A heat exchange gap between the substrate and a heated support is at least partially filled by a gas having a high thermal conductivity. The high thermal conductivity gas is introduced into the heat exchange gap by displacing a lower thermal conductivity originally present in the heat exchange gap when the substrate is loaded. Heat transfer across the heat exchange gap is mediated by the high thermal conductivity gas. | 10-02-2008 |
20090246723 | METHOD AND HEAT TREATMENT APPARATUS FOR UNIFORMLY HEATING A SUBSTRATE DURING A BAKE PROCESS - A heat treatment apparatus and associated method are provided for heating a substrate. The apparatus includes a processing chamber containing a process space, first and second substrate supports, and first and second heating sources. The first substrate support is configured to support the substrate in a spaced relationship with the first heating source to define a heat exchange gap and to transfer heat energy through the heat exchange gap to elevate a temperature of the substrate to an offset temperature below a process target temperature. The second substrate support is configured to support the substrate in a spaced relationship with a second heating source to define a heat exchange gap between the second heating source and the substrate and to transfer heat energy through the heat exchange gap to elevate the temperature of the substrate from the offset temperature to the process target temperature in controlled increments. | 10-01-2009 |
20100209830 | Multi-Pitch Scatterometry Targets - The invention can provide a method of processing a substrate using multi-pitch scatterometry targets (M-PSTs) for de-convolving lithographic process parameters during Single-Patterning (S-P), Double-Patterning (D-P) procedures, and Double-Exposure (D-E) procedures. | 08-19-2010 |
20110244402 | METHOD OF SLIMMING RADIATION-SENSITIVE MATERIAL LINES IN LITHOGRAPHIC APPLICATIONS - A method and system for patterning a substrate using a radiation-sensitive material is described. The method and system include forming a layer of radiation-sensitive material on a substrate, exposing the layer of radiation-sensitive material to a pattern of radiation, and then performing a post-exposure bake following the exposing. The imaged layer of radiation-sensitive material is then positive-tone developed to remove a region having high radiation exposure to form radiation-sensitive material lines. An exposure gradient within the radiation-sensitive material lines is then removed, followed by slimming the radiation-sensitive material lines. | 10-06-2011 |
20110244403 | METHOD OF SLIMMING RADIATION-SENSITIVE MATERIAL LINES IN LITHOGRAPHIC APPLICATIONS - A method and system for patterning a substrate using a radiation-sensitive material is described. The method and system include forming a layer of radiation-sensitive material on a substrate, exposing the layer of radiation-sensitive material to a pattern of radiation, and then performing a post-exposure bake following the exposing. The imaged layer of radiation-sensitive material is then developed to remove either a region having high radiation exposure or a region having low radiation exposure to form radiation-sensitive material lines. An exposure gradient within the radiation-sensitive material lines is then removed, followed by slimming the radiation-sensitive material lines. | 10-06-2011 |
20130107237 | METHOD OF SLIMMING RADIATION-SENSITIVE MATERIAL LINES IN LITHOGRAPHIC APPLICATIONS | 05-02-2013 |
20140261569 | METHOD AND APPARATUS FOR SUBSTRATE RINSING AND DRYING - A method and apparatus are disclosed for optimizing a rinsing and drying process in semiconductor manufacturing. The optimization seeks to maximize processing throughput while maintaining low defect counts and high device yields, and utilizes simulation and experimental data to set the optimal process parameters for the rinsing and drying process. Improved methods of rinse liquid and purge gas nozzle movement are also disclosed. | 09-18-2014 |
20140272723 | CHEMI-EPITAXY IN DIRECTED SELF-ASSEMBLY APPLICATIONS USING PHOTO-DECOMPOSABLE AGENTS - A method of forming a layered substrate comprising a self-assembled material is provided. The method includes forming a first layer of material on a substrate, forming a layer of a radiation sensitive material on the first layer of material, imaging the layer of the radiation sensitive material with patterned light, heating the layer of the radiation sensitive material to a temperature at or above the cross-linking reaction temperature, developing the imaged layer, and forming the block copolymer pattern. The radiation sensitive material comprises at least one photo-sensitive component selected from (a) a photo-decomposable cross-linking agent, (b) a photo-base generator, or (c) a photo-decomposable base; and a cross-linkable polymer, wherein imaging by the patterned light provides a pattern defined by a first region having substantial portions of a decomposed photo-sensitive component surrounded by regions having substantial portions of intact photo-sensitive component. | 09-18-2014 |
20140273534 | INTEGRATION OF ABSORPTION BASED HEATING BAKE METHODS INTO A PHOTOLITHOGRAPHY TRACK SYSTEM - A method of patterning a layered substrate is provided that includes forming a layer of a block copolymer on a substrate; and annealing the layer of the block copolymer to affect microphase segregation such that self-assembled domains are formed by application of an absorption based heating method. Exemplary absorption based heating methods include electromagnetic radiation sources such as broadband flash lamps, light emitting diodes, lasers, or DUV flash lamps. The method may also include a metrology review and an application of the absorption based heating to at least a portion of the layered substrate to refine or modify the microphase segregation. | 09-18-2014 |
20150241781 | MITIGATION OF EUV SHOT NOISE REPLICATING INTO ACID SHOT NOISE IN PHOTO-SENSITIZED CHEMICALLY-AMPLIFIED RESIST (PS-CAR) - A method for mitigating shot noise in extreme ultraviolet (EUV) lithography and patterning of photo-sensitized chemically-amplified resist (PS-CAR) is described. The method includes a first EUV patterned exposure to generate a photosensitizer and a second flood exposure at a wavelength different than the wavelength of the first EUV patterned exposure, to generate acid in regions exposed during the first EUV patterned exposure, wherein the photosensitizer acts to amplify acid generation and improve contrast. The resist may be exposed to heat, liquid solvent, solvent atmosphere, or a vacuum to mitigate the effects of EUV shot noise on photosensitizer concentration which may accrue during the first EUV patterned exposure. | 08-27-2015 |
20150241782 | Chemical Amplification Methods and Techniques for Developable Bottom Anti-reflective Coatings and Dyed Implant Resists - The disclosure herein describes methods for Photosensitized Chemically Amplified Resist Chemicals (PS-CAR) to pattern light sensitive films (e.g., photoresist on anti-reflective coatings) on a semiconductor substrate. In one embodiment, a two-step exposure process may generate higher acid concentration regions within a photoresist layer. The PS-CAR chemicals may include photoacid generators (PAGs) and photosensitizer elements that enhance the decomposition of the PAGs into acid. The first exposure may be a patterned EUV or UV exposure that generates an initial amount of acid and photosensitizer. The second exposure may be a non-EUV flood exposure that excites the photosensitizer which increases the acid generation rate where the photosensitizer is located in the film stack. The distribution of energy during the exposures may be optimized by using certain characteristics (e.g., thickness, index of refraction, doping) of the photoresist layer, an underlying layer, and/or an overlying layer. | 08-27-2015 |
20150241783 | Methods and Techniques to use with Photosensitized Chemically Amplified Resist Chemicals and Processes - The disclosure herein describes methods for Photosensitized Chemically Amplified Resist Chemicals (PS-CAR) to pattern light sensitive films on a semiconductor substrate. In one embodiment, a two-step exposure process may generate higher acid concentration regions within a photoresist layer. The PS-CAR chemicals may include photoacid generators (PAGs) and photosensitizer elements that enhance the decomposition of the PAGs into acid. The first exposure may be a patterned EUV exposure that generates an initial amount of acid and photosensitizer. The second exposure may be a non-EUV flood exposure that excites the photosensitizer which increases the acid generation rate where the photosensitizer is located on the substrate. The distribution of energy during the exposures may be optimized by using certain characteristics (e.g., thickness, index of refraction, doping) of the photoresist layer, an underlying layer, and/or an overlying layer. | 08-27-2015 |
20150241793 | METROLOGY FOR MEASUREMENT OF PHOTOSENSITIZER CONCENTRATION WITHIN PHOTO-SENSITIZED CHEMICALLY-AMPLIFIED RESIST (PS-CAR) - Methods for measuring photosensitizer concentrations in a photo-sensitized chemically-amplified resist (PS-CAR) patterning process are described. Measured photosensitizer concentrations can be used in feedback and feedforward control of the patterning process and subsequent processing steps. Also described is a metrology target formed using PS-CAR resist, and a substrate including a plurality of such metrology targets to facilitate patterning process control. | 08-27-2015 |
Patent application number | Description | Published |
20150328649 | METHOD AND APPARATUS FOR MULTIPLE RECIRCULATION AND FILTRATION CYCLES PER DISPENSE IN A PHOTORESIST DISPENSE SYSTEM - An apparatus for dispensing a liquid onto a substrate may comprise a reservoir for storing the liquid to be dispensed; a filter comprising an inlet and an outlet, the filter inlet in fluidic communication with the reservoir via a first valve; a dosing pump comprising an inlet, a first outlet, and a second outlet, the dosing pump inlet in fluidic communication with the reservoir and the dosing pump second outlet in fluidic communication with the filter inlet via a second valve, the dosing pump configured to dose an amount of the liquid and pump the liquid; and a dispense nozzle in fluidic communication with the dosing pump first outlet, the dispense nozzle configured to dispense the liquid onto the substrate. | 11-19-2015 |
20150328650 | METHOD AND APPARATUS FOR INCREASED RECIRCULATION AND FILTRATION IN A PHOTORESIST DISPENSE SYSTEM USING A LIQUID EMPTY RESERVOIR - An apparatus for dispensing a liquid onto a substrate may comprise a reservoir for storing the liquid to be dispensed; a filter comprising an inlet and an outlet, the filter inlet in fluidic communication with the reservoir via a first valve; a dosing pump comprising an inlet, a first outlet, and a second outlet, the dosing pump inlet in fluidic communication with the reservoir and the dosing pump second outlet in fluidic communication with the filter inlet via a second valve, the dosing pump configured to dose an amount of the liquid and pump the liquid; and a dispense nozzle in fluidic communication with the dosing pump first outlet, the dispense nozzle configured to dispense the liquid onto the substrate. | 11-19-2015 |
20150331322 | METHOD AND APPARATUS FOR INCREASED RECIRCULATION AND FILTRATION IN A PHOTORESIST DISPENSE SYSTEM USING A RECIRCULATION PUMP/LOOP - An apparatus for dispensing a liquid onto a substrate may comprise a reservoir for storing the liquid to be dispensed; a filter comprising an inlet and an outlet, the filter inlet in fluidic communication with the reservoir via a first valve; a dosing pump comprising an inlet, a first outlet, and a second outlet, the dosing pump inlet in fluidic communication with the reservoir and the dosing pump second outlet in fluidic communication with the filter inlet via a second valve, the dosing pump configured to dose an amount of the liquid and pump the liquid; and a dispense nozzle in fluidic communication with the dosing pump first outlet, the dispense nozzle configured to dispense the liquid onto the substrate. | 11-19-2015 |