Patent application number | Description | Published |
20080239272 | Reduced lens heating methods, apparatus, and systems - In one embodiment, a system is disclosed that includes an illuminator having a source that produces light waves having a first wavelength, and a mask. The mask includes at least one partly opaque area and at least one opening within the opaque area includes a slanted, sub-resolution feature that redistributes a portion of the light passing through the open area to an off-axis location. A method of forming a device by way of photolithography might include forming unresolvable features on a mask and projecting light through the mask. Other systems, methods, and apparatus are disclosed. | 10-02-2008 |
20080278700 | SUB-RESOLUTION ASSIST DEVICES AND METHODS - Photolithographic apparatus, systems, and methods that make use of sub-resolution assist devices are disclosed. In the various embodiments, an imaging mask includes an optically transmissive substrate having a sub-resolution assist device that further includes a first optical attenuation region and a spaced-apart second optical attenuation region, and an optically transmissive phase adjustment region interposed between the first optical attenuation region and the second optical attenuation region, the phase adjustment region being configured to change a phase of incident illumination radiation by altering an optical property of the substrate. | 11-13-2008 |
20080284996 | OPTICAL COMPENSATION DEVICES, SYSTEMS, AND METHODS - Photolithographic apparatus, systems, and methods that make use of optical compensation devices are disclosed. In various embodiments, an imaging mask includes an optically transmissive substrate. A first patterned region is formed on the substrate, and a second patterned region is formed on the substrate that is proximate to the first patterned region, the first patterned region and the second patterned region each having a plurality of optically transmissive and optically attenuating regions formed on the mask. An optical compensation region is positioned proximate to at least one of the first patterned region and the second patterned region that is configured to change a phase of the illumination radiation incident on the at least one of the first patterned region and the second region by altering an optical property of the substrate. | 11-20-2008 |
20080297752 | FOCUS SENSITIVE LITHOGRAPHIC APPARATUS, SYSTEMS, AND METHODS - A system includes an illuminator, a mask, and a measurement device. The illuminator includes a light source. The mask includes at least one focus determination pattern having a first pattern portion and an adjacent second pattern portion. The first pattern portion and the second pattern portion have substantially the same width but produce a phase difference in light transmitted through the pattern portions. The measurement device measures a first critical dimension and a second critical dimension of a feature produced on a target by the at least one focus determination pattern. The difference between the first critical dimension and the second critical dimension relates to an amount of defocus and is sensitive to the focus change. The system may also include a feedback control loop where a determination regarding an amount of defocus is used to focus the position of a wafer or a mask or both of them onto the target. Additional apparatus, systems, and methods are disclosed. | 12-04-2008 |
20080297753 | APPARATUS AND METHOD FOR DEFECT-FREE MICROLITHOGRAPHY - An illumination source pupil for microlithography includes a substrate of substantially opaque material having an x-axis and a y-axis defined with respect to the substrate. The substrate has a first arcuate opening therein, and a second arcuate opening therein. The substrate also includes a third opening therein positioned at the intersection of the x-axis and the y-axis. | 12-04-2008 |
20080311485 | Photomasks Used to Fabricate Integrated Circuitry, Finished-Construction Binary Photomasks Used to Fabricate Integrated Circuitry, Methods of Forming Photomasks, and Methods of Photolithographically Patterning Substrates - A finished-construction binary photomask used to fabricated integrated circuitry includes a substrate having a device region and a non-device region. The device region has a transparent substrate having a pair of spaced adjacent binary features formed thereover. The spaced adjacent binary features have an opaque material and a phase-shifting material. The phase-shifting material is received between the transparent substrate and the opaque material. Sidewalls of the spaced adjacent binary features may include a coating layer. Other embodiments, including methods, are contemplated. | 12-18-2008 |
20090012769 | METHOD AND SYSTEM FOR LITHOGRAPHIC SIMULATION AND VERIFICATION - Methods and systems for lithographic simulation and verification comprising a process in the frequency domain or in the spatial domain of calculating intensity at a location (x, y) for a number of defocus values. In addition, evaluating the intensity calculation result to determine if the intensity level will result in the mask pattern being written onto a wafer. The verification process may be calculated in the spatial domain or in the frequency domain. The calculations may be done such that full focus window calculations may be obtained by isolating the defocus parameter “z” in the calculations. | 01-08-2009 |
20090186283 | Photomasks and Methods Of Forming Photomasks - Some embodiments include methods in which a mathematical representation of a photomask construction is defined, with such representation comprising a plurality of pillars that individually contain a plurality of distinct layers. Each of the layers has two or more characteristic parameters which are optimized through an optimization loop. Subsequently, specifications obtained from the optimization loop are utilized to form actual layers over an actual reticle base. Some embodiments include photomask constructions in which a radiation-patterning topography is across a reticle base, with such topography including multiple pillars that individually contain at least seven distinct layers. | 07-23-2009 |
20090272880 | GUIDED-MODE-RESONANCE TRANSMISSION COLOR FILTERS FOR COLOR GENERATION IN CMOS IMAGE SENSORS - Imager pixel arrays and methods for forming imager pixel arrays. An image sensor pixel includes a photosensor and a waveguide grating resonance filter formed over the photosensor. The waveguide grating resonance filter is configured to pass light to the photosensor in a wavelength band and to block light outside of the wavelength band. The waveguide grating resonance filter includes a grating material having a first refractive index and arranged in a grating pattern with a grating pitch, and has an effective refractive index that is a function of the first refractive index. A combination of the grating pitch and the effective refractive index is selected to correspond to the wavelength band. | 11-05-2009 |
20090287461 | METHODS AND SYSTEMS FOR INTENSITY MODELING INCLUDING POLARIZATION - Embodiments of the present invention provide computer readable media encoded with executable instructions for modeling an intensity profile at a surface illuminated by an illumination source through a mask. Further embodiments provide methods for correcting a mask pattern and methods for selecting an illumination source. Still further embodiments provide masks and integrated circuits produced using a model of the illumination source. Embodiments of the present invention take into account the polarization of the illumination source and are able to model the effect of polarization on the resultant intensity profile. | 11-19-2009 |
20100092878 | PHASE SHIFT MASK WITH TWO-PHASE CLEAR FEATURE - Systems and methods are provided for use in photolithography. In one embodiment, a reticle is provided that comprises a phase shift and transmission control layer, wherein a gap in the phase shift and transmission control layer defines a line. Adjacent to the phase shift and transmission control layer is an optically transparent material, comprising a groove located within the line, wherein the groove comprises a region of reduced thickness in the optically transparent material. The region of reduced thickness serves to shift the phase of light passing through the groove, as compared to light passing through other regions of the optically transparent material. Thus, the reticle has a clear feature comprising light of two different phases. | 04-15-2010 |
20100182580 | PHOTOLITHOGRAPHY SYSTEMS WITH LOCAL EXPOSURE CORRECTION AND ASSOCIATED METHODS - Photolithography systems with local exposure correction and associated methods are disclosed. In one embodiment, a photolithography system includes an off-axis illumination source and a substrate support facing the illumination source. The substrate support is configured to carry a microelectronic substrate. The photolithography system further includes a photomask between the illumination source and the microelectronic substrate. The photomask has a substrate and a pattern layer having a trench, and the substrate includes a channel generally aligned with the trench in the pattern layer. | 07-22-2010 |
20100227260 | Photomasks, Methods Of Forming Photomasks, And Methods Of Photolithographically-Patterning Substrates - Some embodiments include methods of forming photomasks. A stack of at least three different materials is formed over a base. Regions of the stack are removed to leave a mask pattern over the base. The mask pattern includes a pair of spaced-apart adjacent segments of the stack. A liner is formed to cover sidewalls of the segments. Some embodiments include photomasks. The photomasks may include a transparent base supporting a pair of spaced-apart adjacent features. The spaced-apart adjacent features may include sidewalls, with inner sidewalls of the spaced-apart features being adjacent one another, and spaced from one another by a gap. A coating layer of from about 5 Angstroms thick to about 50 Angstroms thick may be along the entirety of the sidewalls of the spaced-apart adjacent features. Some embodiments include methods of photolithographically patterning substrates. | 09-09-2010 |
20100323283 | OPTICAL COMPENSATION DEVICES, SYSTEMS, AND METHODS - Photolithographic apparatus, systems, and methods that make use of optical compensation devices are disclosed. In various embodiments, an imaging mask includes an optically transmissive substrate. A first patterned region is formed on the substrate, and a second patterned region is formed on the substrate that is proximate to the first patterned region, the first patterned region and the second patterned region each having a plurality of optically transmissive and optically attenuating regions formed on the mask. An optical compensation region is positioned proximate to at least one of the first patterned region and the second patterned region that is configured to change a phase of the illumination radiation incident on the at least one of the first patterned region and the second region by altering an optical property of the substrate. | 12-23-2010 |
20110010677 | METHOD AND SYSTEM FOR LITHOGRAPHIC SIMULATION AND VERIFICATION - Methods and systems for lithographic simulation and verification comprising a process in the frequency domain or in the spatial domain of calculating intensity at a location (x, y) for a number of defocus values. In addition, evaluating the intensity calculation result to determine if the intensity level will result in the mask pattern being written onto a wafer. The verification process may be calculated in the spatial domain or in the frequency domain. The calculations may be done such that full focus window calculations may be obtained by isolating the defocus parameter “z” in the calculations. | 01-13-2011 |
20110165505 | Photomasks, Methods of Forming Photomasks, and Methods of Photolithographically-Patterning Substrates - Some embodiments include methods of forming photomasks. A stack of at least three different materials is formed over a base. Regions of the stack are removed to leave a mask pattern over the base. The mask pattern includes a pair of spaced-apart adjacent segments of the stack. A liner is formed to cover sidewalls of the segments. Some embodiments include photomasks. The photomasks may include a transparent base supporting a pair of spaced-apart adjacent features. The spaced-apart adjacent features may include sidewalls, with inner sidewalls of the spaced-apart features being adjacent one another, and spaced from one another by a gap. A coating layer of from about 5 Angstroms thick to about 50 Angstroms thick may be along the entirety of the sidewalls of the spaced-apart adjacent features. Some embodiments include methods of photolithographically patterning substrates. | 07-07-2011 |
20110165506 | Photomasks and Methods Of Forming Photomasks - Some embodiments include methods in which a mathematical representation of a photomask construction is defined, with such representation comprising a plurality of pillars that individually contain a plurality of distinct layers. Each of the layers has two or more characteristic parameters which are optimized through an optimization loop. Subsequently, specifications obtained from the optimization loop are utilized to form actual layers over an actual reticle base. Some embodiments include photomask constructions in which a radiation-patterning topography is across a reticle base, with such topography including multiple pillars that individually contain at least seven distinct layers. | 07-07-2011 |
20110217632 | REDUCED LENS HEATING METHODS, APPARATUS, AND SYSTEMS - In one embodiment, a system is disclosed that includes an illuminator having a source that produces light waves having a first wavelength, and a mask. The mask includes at least one partly opaque area and at least one opening within the opaque area includes a slanted, sub-resolution feature that redistributes a portion of the light passing through the open area to an off-axis location. A method of forming a device by way of photolithography might include forming unresolvable features on a mask and projecting light through the mask. Other systems, methods, and apparatus are disclosed. | 09-08-2011 |
20110235009 | SUB-RESOLUTION ASSIST DEVICES AND METHODS - Photolithographic apparatus, systems, and methods that make use of sub-resolution assist devices are disclosed. In the various embodiments, an imaging mask includes an optically transmissive substrate having a sub-resolution assist device that further includes a first optical attenuation region and a spaced-apart second optical attenuation region, and an optically transmissive phase adjustment region interposed between the first optical attenuation region and the second optical attenuation region, the phase adjustment region being configured to change a phase of incident illumination radiation by altering an optical property of the substrate. | 09-29-2011 |
20120003573 | Photomasks - Some embodiments include methods of forming photomasks. A stack of at least three different materials is formed over a base. Regions of the stack are removed to leave a mask pattern over the base. The mask pattern includes a pair of spaced-apart adjacent segments of the stack. A liner is formed to cover sidewalls of the segments. Some embodiments include photomasks. The photomasks may include a transparent base supporting a pair of spaced-apart adjacent features. The spaced-apart adjacent features may include sidewalls, with inner sidewalls of the spaced-apart features being adjacent one another, and spaced from one another by a gap. A coating layer of from about 5 Angstroms thick to about 50 Angstroms thick may be along the entirety of the sidewalls of the spaced-apart adjacent features. Some embodiments include methods of photolithographically patterning substrates. | 01-05-2012 |
20120064439 | OPTICAL COMPENSATION DEVICES, SYSTEMS, AND METHODS - Photolithographic apparatus, systems, and methods that make use of optical compensation devices are disclosed. In various embodiments, an imaging mask includes an optically transmissive substrate. A first patterned region is formed on the substrate, and a second patterned region is formed on the substrate that is proximate to the first patterned region, the first patterned region and the second patterned region each having a plurality of optically transmissive and optically attenuating regions formed on the mask. An optical compensation region is positioned proximate to at least one of the first patterned region and the second patterned region that is configured to change a phase of the illumination radiation incident on the at least one of the first patterned region and the second region by altering an optical property of the substrate. | 03-15-2012 |
20120202143 | REDUCED LENS HEATING METHODS, APPARATUS, AND SYSTEMS - In one embodiment, a system is disclosed that includes an illuminator having a source that produces light waves having a first wavelength, and a mask. The mask includes at least one partly opaque area and at least one opening within the opaque area includes a slanted, sub-resolution feature that redistributes a portion of the light passing through the open area to an off-axis location. A method of forming a device by way of photolithography might include forming unresolvable features on a mask and projecting light through the mask. Other systems, methods, and apparatus are disclosed. | 08-09-2012 |
20130137017 | Photomask Constructions Having Liners of Specified Compositions Along Sidewalls of Multi-Layered Structures - Some embodiments include methods in which a mathematical representation of a photomask construction is defined, with such representation comprising a plurality of pillars that individually contain a plurality of distinct layers. Each of the layers has two or more characteristic parameters which are optimized through an optimization loop. Subsequently, specifications obtained from the optimization loop are utilized to form actual layers over an actual reticle base. Some embodiments include photomask constructions in which a radiation-patterning topography is across a reticle base, with such topography including multiple pillars that individually contain at least seven distinct layers. | 05-30-2013 |
20130323627 | Photomasks, Methods Of Forming A Photomask, And Methods Of Photolithographically Patterning A Substrate - A photomask includes a substrate having a device region and an adjacent edge region over transparent material. The device region includes spaced primary features of constant pitch at least adjacent the edge region. The edge region includes spaced sub-resolution assist features of the constant pitch of the spaced primary features at least adjacent the device region and which are off-phase by from about 30° to about 150° from +/−180°. Additional embodiments, including methods, are disclosed. | 12-05-2013 |
20140241025 | DRAM CELL DESIGN WITH FOLDED DIGITLINE SENSE AMPLIFIER - The present invention is generally directed to a DRAM cell design with folded digitline sense amplifier. In one illustrative embodiment, a memory array having a plurality of memory cells having an effective size of 6F | 08-28-2014 |
20140248554 | SUB-RESOLUTION ASSIST DEVICES AND METHODS - Photolithographic apparatus, systems, and methods that make use of sub-resolution assist devices are disclosed. In the various embodiments, an imaging mask includes an optically transmissive substrate having a sub-resolution assist device that further includes a first optical attenuation region and a spaced-apart second optical attenuation region, and an optically transmissive phase adjustment region interposed between the first optical attenuation region and the second optical attenuation region, the phase adjustment region being configured to change a phase of incident illumination radiation by altering an optical property of the substrate. | 09-04-2014 |
20150017575 | Photomasks, Methods Of Forming A Photomask, And Methods Of Photolithographically Patterning A Substrate - A photomask includes a substrate having a device region and an adjacent edge region over transparent material. The device region includes spaced primary features of constant pitch at least adjacent the edge region. The edge region includes spaced sub-resolution assist features of the constant pitch of the spaced primary features at least adjacent the device region and which are off-phase by from about 30° to about 150° from +/−180°. Additional embodiments, including methods, are disclosed. | 01-15-2015 |