Patent application number | Description | Published |
20090130852 | PROCESS FOR IMPROVING CRITICAL DIMENSION UNIFORMITY OF INTEGRATED CIRCUIT ARRAYS - Methods for patterning integrated circuit (IC) device arrays employing an additional mask process for improving center-to-edge CD uniformity are disclosed. In one embodiment, a repeating pattern of features is formed in a masking layer over a first region of a substrate. Then, a blocking mask is applied over the features in the masking layer. The blocking mask is configured to differentiate array regions of the first region from peripheral regions of the first region. Subsequently, the pattern of features in the array regions is transferred into the substrate. In the embodiment, an etchant can be uniformly introduced to the masking layer because there is no distinction of center/edge in the masking layer. Thus, CD uniformity can be achieved in arrays which are later defined. | 05-21-2009 |
20110117719 | METHODS OF PROCESSING SEMICONDUCTOR SUBSTRATES IN FORMING SCRIBE LINE ALIGNMENT MARKS - A method of processing a semiconductor substrate in forming scribe line alignment marks includes forming pitch multiplied non-circuitry features within scribe line area of a semiconductor substrate. Individual of the features, in cross-section, have a maximum width which is less than a minimum photolithographic feature dimension used in lithographically patterning the substrate. Photoresist is deposited over the features. Such is patterned to form photoresist blocks that are individually received between a respective pair of the features in the cross-section. Individual of the features of the respective pairs have a laterally innermost sidewall in the cross-section. Individual of the photoresist blocks have an opposing pair of first pattern edges in the cross-section that are spaced laterally inward of the laterally innermost sidewalls of the respective pair of the features. Individual of the photoresist blocks have an opposing pair of second pattern edges in the cross-section that self-align laterally outward of the first pattern edges to the laterally innermost sidewalls of the features during the patterning. | 05-19-2011 |
20110287630 | Methods of Processing Semiconductor Substrates In Forming Scribe Line Alignment Marks - A method of processing a semiconductor substrate in forming scribe line alignment marks includes forming pitch multiplied non-circuitry features within scribe line area of a semiconductor substrate. Individual of the features, in cross-section, have a maximum width which is less than a minimum photolithographic feature dimension used in lithographically patterning the substrate. Photoresist is deposited over the features. Such is patterned to form photoresist blocks that are individually received between a respective pair of the features in the cross-section. Individual of the features of the respective pairs have a laterally innermost sidewall in the cross-section. Individual of the photoresist blocks have an opposing pair of first pattern edges in the cross-section that are spaced laterally inward of the laterally innermost sidewalls of the respective pair of the features. Individual of the photoresist blocks have an opposing pair of second pattern edges in the cross-section that self-align laterally outward of the first pattern edges to the laterally innermost sidewalls of the features during the patterning. | 11-24-2011 |
20130052566 | LITHOGRAPHY METHODS, METHODS FOR FORMING PATTERNING TOOLS AND PATTERNING TOOLS - Methods of lithography, methods for forming patterning tools, and patterning tools are described. One such patterning tool include an active region that forms a first diffraction image on a lens when in use, and an inactive region that forms a second diffraction image on a lens when in use. The inactive region includes a pattern of phase shifting features formed in a substantially transparent material of the patterning tool. Patterning tools and methods, as described, can be used to compensate for lens distortion from effects such as localized heating. | 02-28-2013 |
20130105948 | PROCESS FOR IMPROVING CRITICAL DIMENSION UNIFORMITY OF INTEGRATED CIRCUIT ARRAYS | 05-02-2013 |
20140106280 | LITHOGRAPHY METHODS, METHODS FOR FORMING PATTERNING TOOLS AND PATTERNING TOOLS - Methods of lithography, methods for forming patterning tools, and patterning tools are described. One such patterning tool include an active region that forms a first diffraction image on a lens when in use, and an inactive region that forms a second diffraction image on a lens when in use. The inactive region includes a pattern of phase shifting features formed in a substantially transparent material of the patterning tool. Patterning tools and methods, as described, can be used to compensate for lens distortion from effects such as localized heating. | 04-17-2014 |
20140154886 | Methods of Processing Semiconductor Substrates In Forming Scribe Line Alignment Marks - A method of processing a semiconductor substrate in forming scribe line alignment marks includes forming pitch multiplied non-circuitry features within scribe line area of a semiconductor substrate. Individual of the features, in cross-section, have a maximum width which is less than a minimum photolithographic feature dimension used in lithographically patterning the substrate. Photoresist is deposited over the features. Such is patterned to form photoresist blocks that are individually received between a respective pair of the features in the cross-section. Individual of the features of the respective pairs have a laterally innermost sidewall in the cross-section. Individual of the photoresist blocks have an opposing pair of first pattern edges in the cross-section that are spaced laterally inward of the laterally innermost sidewalls of the respective pair of the features. Individual of the photoresist blocks have an opposing pair of second pattern edges in the cross-section that self-align laterally outward of the first pattern edges to the laterally innermost sidewalls of the features during the patterning. | 06-05-2014 |
20150035124 | PROCESS FOR IMPROVING CRITICAL DIMENSION UNIFORMITY OF INTEGRATED CIRCUIT ARRAYS - Methods for patterning integrated circuit (IC) device arrays employing an additional mask process for improving center-to-edge CD uniformity are disclosed. In one embodiment, a repeating pattern of features is formed in a masking layer over a first region of a substrate. Then, a blocking mask is applied over the features in the masking layer. The blocking mask is configured to differentiate array regions of the first region from peripheral regions of the first region. Subsequently, the pattern of features in the array regions is transferred into the substrate. In the embodiment, an etchant can be uniformly introduced to the masking layer because there is no distinction of center/edge in the masking layer. Thus, CD uniformity can be achieved in arrays which are later defined. | 02-05-2015 |
Patent application number | Description | Published |
20110003469 | Methods Of Forming Memory Cells; And Methods Of Forming Vertical Structures - Some embodiments include methods of forming memory. A series of photoresist features may be formed over a gate stack, and a placeholder may be formed at an end of said series. The placeholder may be spaced from the end of said series by a gap. A layer may be formed over and between the photoresist features, over the placeholder, and within said gap. The layer may be anisotropically etched into a plurality of first vertical structures along edges of the photoresist features, and into a second vertical structure along an edge of the placeholder. A mask may be formed over the second vertical structure. Subsequently, the first vertical structures may be used to pattern string gates while the mask is used to pattern a select gate. Some embodiments include methods of forming conductive runners, and some embodiments may include semiconductor constructions. | 01-06-2011 |
20110129991 | Methods Of Patterning Materials, And Methods Of Forming Memory Cells - Some embodiments include methods of patterning materials. A mass may be formed over a material, and a first mask may be formed over the mass. First spacers may be formed along features of the first mask, and then the first mask may be removed to leave a second mask corresponding to the first spacers. A pattern of the second mask may be partially transferred into the mass to form an upper portion of the mass into a third mask. The first spacers may be removed from over the third mask, and then second spacers be formed along features of the third mask. The second spacers are a fourth mask. A pattern of the fourth mask may be transferred into a bottom portion of the mass, and then the bottom portion may be used as a mask during processing of the underlying material. | 06-02-2011 |
20110237081 | Methods of Forming Memory; and Methods of Forming Vertical Structures - Some embodiments include methods of forming memory. A series of photoresist features may be formed over a gate stack, and a placeholder may be formed at an end of said series. The placeholder may be spaced from the end of said series by a gap. A layer may be formed over and between the photoresist features, over the placeholder, and within said gap. The layer may be anisotropically etched into a plurality of first vertical structures along edges of the photoresist features, and into a second vertical structure along an edge of the placeholder. A mask may be formed over the second vertical structure. Subsequently, the first vertical structures may be used to pattern string gates while the mask is used to pattern a select gate. Some embodiments include methods of forming conductive runners, and some embodiments may include semiconductor constructions. | 09-29-2011 |
20130295335 | Substrates And Methods Of Forming A Pattern On A Substrate - Substrates and methods of forming a pattern on a substrate. The pattern includes a repeating pattern region and a pattern-interrupting region adjacent to the repeating pattern region. A mask is formed on the substrate, with the mask including the repeating pattern region and the pattern-interrupting region and which are formed using two separate masking steps. The mask is used in forming the pattern into underlying substrate material on which the mask is received. Substrates comprising masks are also disclosed. | 11-07-2013 |
20140087558 | Methods of Forming Memory Cells; and Methods of Forming Vertical Structures - Some embodiments include methods of forming memory. A series of photoresist features may be formed over a gate stack, and a placeholder may be formed at an end of said series. The placeholder may be spaced from the end of said series by a gap. A layer may be formed over and between the photoresist features, over the placeholder, and within said gap. The layer may be anisotropically etched into a plurality of first vertical structures along edges of the photoresist features, and into a second vertical structure along an edge of the placeholder. A mask may be formed over the second vertical structure. Subsequently, the first vertical structures may be used to pattern string gates while the mask is used to pattern a select gate. Some embodiments include methods of forming conductive runners, and some embodiments may include semiconductor constructions. | 03-27-2014 |
20140117529 | Semiconductor Constructions, Patterning Methods, and Methods of Forming Electrically Conductive Lines - Some embodiments include methods of forming electrically conductive lines. Photoresist features are formed over a substrate, with at least one of the photoresist features having a narrowed region. The photoresist features are trimmed, which punches through the narrowed region to form a gap. Spacers are formed along sidewalls of the photoresist features. Two of the spacers merge within the gap. The photoresist features are removed to leave a pattern comprising the spacers. The pattern is extended into the substrate to form a plurality of recesses within the substrate. Electrically conductive material is formed within the recesses to create the electrically conductive lines. Some embodiments include semiconductor constructions having a plurality of lines over a semiconductor substrate. Two of the lines are adjacent to one another and are substantially parallel to one another except in a region wherein said two of the lines merge into one another. | 05-01-2014 |
20140131784 | Semiconductor Constructions and Methods of Forming Semiconductor Constructions - Some embodiments include a semiconductor construction having a stack containing alternating levels of control gate material and intervening dielectric material. A channel material panel extends through the stack and along a first direction. The panel divides the stack into a first section on a first side of the panel and a second section on a second side of the panel. Memory cell stacks are between the channel material panel and the control gate material. The memory cell stacks include cell dielectric material shaped as containers having open ends pointing toward the channel material panel, and include charge-storage material within the containers. Some embodiments include methods of forming semiconductor constructions. | 05-15-2014 |
20140181763 | Methods Of Forming A Mask And Methods Of Correcting Intra-Field Variation Across A Mask Design Used In Photolithographic Processing - A method of forming a mask includes creating a difference map between a desired intra-field pattern that is to be formed on substrates and an intra-field signature pattern. The intra-field signature pattern represents a pattern formed on an example substrate by an exposure field using an example E-beam-written mask. Modifications are determined to formation of mask features to be made using an E-beam mask writer if forming a modified E-beam-written mask having mask features modified from that of the example E-beam-written mask that will improve substrate feature variation identified in the difference map. The E-beam mask writer is programmed using the determined modifications to improve the substrate feature variation identified in the difference map. It is used to form the modified E-beam-written mask having the modified mask features. One or more substrates are photolithographically processed using the modified E-beam-written mask. | 06-26-2014 |