Patent application number | Description | Published |
20080213707 | Graded Spin-on Organic Antireflective Coating for Photolithography - An antireflective coating that contains at least two polymer components and comprises chromophore moieties and transparent moieties is provided. The antireflective coating is useful for providing a single-layer composite graded antireflective coating formed beneath a photoresist layer. | 09-04-2008 |
20080286683 | COMPOSITE STRUCTURES TO PREVENT PATTERN COLLAPSE - A method and a structure. The structure includes: a solid core comprising a first photoresist material, the core having a bottom surface on a substrate, a top surface and opposite first and second side surfaces between the top surface and the bottom surface; and a shell comprising a second photoresist material, the shell on the top surface of the substrate, the shell containing a cavity open to the top surface of the substrate, the shell formed over the top surface and the first and second side surfaces walls of the core, the core completely filling the cavity. The core is stiffer than the shell. The method includes: forming the core from a first photoresist layer and forming the shell from a second photoresist layer applied over the core. The core may be cross-linked to increase its stiffness. | 11-20-2008 |
20090075217 | TAPERED EDGE BEAD REMOVAL PROCESS FOR IMMERSION LITHOGRAPHY - A method and apparatus for forming a tapered photoresist edge. The method includes: forming a photoresist layer on a substrate; exposing a first annular region of the photoresist layer adjacent to a perimeter of the substrate to actinic radiation, the first annular region having a first outer perimeter proximate to a perimeter of the substrate and a first inner perimeter away from the perimeter of the substrate, the actinic radiation gradually decreasing in intensity from the first outer perimeter to the first inner perimeter; and developing the exposed first annular region of the photoresist layer to form a tapered profile in a second annular region of the photoresist layer, the second annular region having a second perimeter proximate to the perimeter of the substrate and a second inner perimeter away from the substrate perimeter, the profile gradually increasing in thickness from the second outer perimeter to the second inner perimeter. | 03-19-2009 |
20090262317 | TEST METHOD FOR DETERMINING RETICLE TRANSMISSION STABILITY - Methods, systems and apparatus for monitoring the state of a reticle by providing a reticle having a device exposure region in an imaging tool, defining one or more image fields across the device exposure region, and transmitting energy through the device exposure region. A detector detects the energy in the image field(s) at one or more testing intervals and a system control generates a transmission profile of average energy transmissions for each image field. Using this transmission profile, the state of the reticle is then determined at each testing interval followed by taking action based on the reticle state. The state of the reticle identifies whether the device exposure region has been deleteriously degraded, and as such, the reticle is no longer suitable for use. This is accomplished by determining if any average energy transmission of any image field across the reticle exceeds an allowable energy transmission threshold. | 10-22-2009 |
20100173247 | SUBSTRATE PLANARIZATION WITH IMPRINT MATERIALS AND PROCESSES - The present invention relates to planarization materials and methods of using the same for substrate planarization in photolithography. A planarization layer of a planarization composition is formed on a substrate. The planarization composition contains at least one aromatic monomer and at least one non-aromatic monomer. A substantially flat surface is brought into contact with the planarization layer. The planarization layer is cured by exposing to a first radiation or by baking The substantially flat surface is then removed. A photoresist layer is formed on the planarization layer. The photoresist layer is exposed to a second radiation followed by development to form a relief image in the photoresist layer. The relief image is then transferred into the substrate. | 07-08-2010 |
20110205509 | TEST METHOD FOR DETERMINING RETICLE TRANSMISSION STABILITY - Methods, systems and apparatus for monitoring the state of a reticle by providing a reticle having a device exposure region in an imaging tool, defining one or more image fields across the device exposure region, and transmitting energy through the device exposure region. A detector detects the energy in the image field(s) at one or more testing intervals and a system control generates a transmission profile of average energy transmissions for each image field. Using this transmission profile, the state of the reticle is then determined at each testing interval followed by taking action based on the reticle state. The state of the reticle identifies whether the device exposure region has been deleteriously degraded, and as such, the reticle is no longer suitable for use. This is accomplished by determining if any average energy transmission of any image field across the reticle exceeds an allowable energy transmission threshold. | 08-25-2011 |
20120076982 | STRUCTURE RESULTING FROM CHEMICAL SHRINK PROCESS OVER BARC (BOTTOM ANTI-REFLECTIVE COATING) - A structure. The structure includes: a hole layer; a hole layer including a top hole layer surface, wherein the hole layer has a thickness in a first direction that is perpendicular to the hole layer surface; a bottom antireflective coating (BARC) layer on and in direct physical contact with the hole layer at the top hole layer surface; a photoresist layer on and in direct physical contact with the BARC layer, wherein a continuous hole in the first direction extends completely through the photoresist layer, the BARC layer, and the hole layer; and a polymerized hole shrinking region in direct physical contact with the photoresist layer at a lateral surface of the photoresist layer and with the hole layer at the top hole layer surface, wherein the hole shrinking region does not extend below the hole layer surface in a direction from the BARC layer to the hole layer. | 03-29-2012 |
20140191366 | High-K and Metal Filled Trench-Type EDRAM Capacitor with Electrode Depth and Dimension Control - Partial removal of organic planarizing layer (OPL) material forms a plug of OPL material within an aperture that protects underlying material or electronic device such as a deep trench capacitor during other manufacturing processes. The OPL plug thus can absorb any differences or non-uniformity in, for example, etch rates across the chip or wafer and preserve recess dimensions previously formed. control of a lateral component of later removal of the OPL plug by etching also can increase tolerance of overlay error in forming connections and thus avoid loss in manufacturing yield. | 07-10-2014 |