Abstract: A method for processing a transparent workpiece includes forming a closed contour line having a plurality of defects in the transparent workpiece such that the closed contour line defines a closed contour. Forming the closed contour line includes directing a pulsed laser beam through an aspheric optical element and into the transparent workpiece such that a portion of the pulsed laser beam directed into the transparent workpiece generates an induced absorption within the transparent workpiece, the induced absorption producing a defect within the transparent workpiece, and translating the transparent workpiece and the pulsed laser beam relative to each other along the closed contour line. The method further includes etching the transparent workpiece with a chemical etching solution at an etching rate of about 2.

Abstract: Systems and methods for laser-cutting thermally tempered substrates are disclosed. In one embodiment, a method of separating a thermally tempered substrate includes directing a laser beam focal line such that at least a portion of the laser beam focal line is within a bulk of the thermally tempered substrate. The focused pulsed laser beam is pulsed to form a sequence of pulse bursts comprising one or more sub-pulses. The laser beam focal line produces a damage track within the bulk of the tempered substrate along the laser beam focal line. Relative motion is provided between the focused pulsed laser beam and the tempered substrate such that the pulsed laser beam forms a sequence of damage tracks within the tempered substrate. Individual damage tracks of the sequence of damage tracks are separated by a lateral spacing, and one or more microcracks connect adjacent damage tracks of the sequence of damage tracks.

Abstract: A method of forming a glass article includes steps of: providing a glass substrate sheet, forming a first array of first damage regions, forming a second array of second damage regions which define a plurality of portions, wherein the second array of second damage regions define one or more interrupted zones. The interrupted zones may have a largest dimension of about 10 microns or greater. The method further includes steps of etching the glass substrate and singulating the plurality of portions from the glass substrate sheet.

Abstract: A method for laser processing a laminate workpiece stack includes forming a contour line in a first transparent workpiece of the laminate workpiece stack having a resin layer disposed between the first transparent workpiece and a second transparent workpiece. Forming the contour line includes focusing a pulsed laser beam into a pulsed laser beam focal line directed into the first transparent workpiece to generate an induced absorption within the first transparent workpiece and translating the pulsed laser beam focal line along a first workpiece separation line, thereby laser forming the contour line having a plurality of defects. The method also includes separating the resin layer along a resin separation line by focusing the pulsed laser beam into the pulsed laser beam focal line directed into the resin layer and translating the pulsed laser beam focal line along the resin separation line, thereby laser ablating the resin layer.

Abstract: A device includes a sheet of high purity fused silica that has a thickness of less than 500 ?m, where the sheet includes features in the sheet, wherein the features have a cross-sectional dimension of less than 50 ?m and a depth of at least 100 nm, wherein the features are spaced apart from one another by a distance of less than 50 ?m, and wherein the silica is free of indicia of grinding and polishing.

Abstract: The present invention relates to a process for cutting and separating interior contours in thin substrates of transparent materials, in particular glass. The method involves the utilization of an ultra-short pulse laser to form perforation or holes in the strengthened (e.g., ion exchanged) glass substrate, that may be followed by use of another, focused, laser beam to promote full separation about the perforated line.

Abstract: Systems and processes of cutting and drilling in a target substrate uses a laser (e.g., a pulsed laser) and an optical system to generate a line focus of the laser beam within the target substrate, such as a glass substrate sheet, are provided. The laser cutting and drilling system and process creates holes or defects that, in certain embodiments, extend the full depth of the glass sheet with each individual laser pulse, and allows the laser system to cut and separate the target substrate into any desired contour by creating a series of perforations that form a contour or desired part shape. Since a glass substrate sheet is brittle, cracking will then follow the perforated contour, allowing the glass substrate sheet to separate into any required shape defined by the perforations.

Abstract: A gas permeable glass window, suitable for use with liquid interface additive manufacturing, has an optically transparent glass article greater than about 0.5 millimeters in thickness defining a first surface and a second surface. A plurality of gas channels are disposed through the article from the first surface to the second surface. The gas channels occupy less than about 1.0% of a surface area of the article and are configured such that the article has a gas permeability between about 10 barrers and about 2000 barrers.

Abstract: Systems and methods for laser-cutting thermally tempered substrates are disclosed. In one embodiment, a method of separating a thermally tempered substrate includes directing a laser beam focal line such that at least a portion of the laser beam focal line is within a bulk of the thermally tempered substrate. The focused pulsed laser beam is pulsed to form a sequence of pulse bursts comprising one or more sub-pulses. The laser beam focal line produces a damage track within the bulk of the tempered substrate along the laser beam focal line. Relative motion is provided between the focused pulsed laser beam and the tempered substrate such that the pulsed laser beam forms a sequence of damage tracks within the tempered substrate. Individual damage tracks of the sequence of damage tracks are separated by a lateral spacing, and one or more microcracks connect adjacent damage tracks of the sequence of damage tracks.