Abstract: Methods and systems of fabricating a polymeric stent are disclosed herein.

Abstract: Methods and systems of fabricating a polymeric stent are disclosed herein.

Abstract: A nonwoven fabric includes a plurality of through voids, where each of the voids has a first opening associated with a top surface of the fabric and a first raised edge circumferentially adjacent to the first opening. The voids may each further include a second opening associated with a bottom surface of the fabric and a second raised edge circumferentially adjacent to the second opening, such that the first opening may have a surface area that is larger than or the same as the second opening.

Abstract: A mask manufacturing apparatus includes a laser irradiator, a stage, a frame, and a heat spreader sheet. The laser irradiator divides a laser beam into a plurality of sub-laser beams and irradiates the sub-laser beams to a shadow mask material which is placed over a stage. The frame is disposed over the stage to support the shadow mask material. The heat spreader sheet makes contact with the shadow mask material, absorbs heat generated from the shadow mask material, and dissipates the heat to surroundings of the shadow mask material. Accordingly, the shadow mask material is protected from overheating.

Abstract: A glass substrate having an oleophobic surface. The surface is substantially free of features that form a reentrant geometry and includes a plurality of gas-trapping features extending from the surface to a depth below the surface and a coating comprising at least one of a fluoropolymer and a fluorosilane. The gas-trapping features are substantially isolated from each other, and trap gas below droplets to prevent wetting of the surface.

Abstract: The present disclosure is directed to methods of preparing stable suspensions of precious metal nanoparticles and methods for attaching bio-molecules to the nanoparticles. The formation of nanoparticles can be accomplished by either chemical synthesis or pulsed laser ablation in a liquid. The present disclosure reveals the importance of controlling the conductivity of the dispersion medium during pulsed laser ablation in a liquid to control the particle size of the nanoparticles. The present disclosure also reveals the importance of adjusting and maintaining the conductivity in a range of 25 ?S/cm or less during storage of the nanoparticles and just prior to performing bioconjugation reactions. The control of conductivity is an important process for maintaining the nanoparticles as a stable non-aggregated colloidal suspension in a dispersion medium.

Abstract: A cladding stripper includes a plurality of transversal notches or grooves in the outer surface of an exposed inner cladding of a double clad optical fiber. Position and orientation of the notches can be selected to even out cladding light release along the cladding light stripper, enabling more even temperature distributions due to released cladding light. The notches on the optical fiber can be made with a laser ablation system.

Abstract: A wiring board according to the present invention has an insulating board 1 including a land conductor layer 14 on a surface thereof; an insulating layer 5 formed on the insulating board 1; a via hole 6 extending from an upper surface of the insulating layer 5 to the land conductor layer 14; a via conductor 7 formed in the via hole 6 and formed of a plated metal layer; and a wiring conductor 3b formed on the via conductor 7 and electrically connected to the via conductor 7, wherein the via hole 6 is provided with a protruding portion 8a formed of copper foil and protruding from a periphery of an opening of the via hole 6 toward a center of the opening.

Abstract: A system and method are disclosed for the precision fabrication of Micro-Electro-Mechanical Systems (MEMS), Nano-Electro-Mechanical Systems (NEMS), Microsytems, Nanosystems, Photonics, 3-D integration, heterogeneous integration, and Nanotechology devices and structures. The disclosed system and method can also be used in any fabrication technology to increase the precision and accuracy of the devices and structures being made compared to conventional means of implementation. A platform holds and moves a substrate to be machined during machining and a plurality of lasers and/or ion beams are provided that are capable of achieving predetermined levels of machining resolution and precision and machining rates for a predetermined application. The plurality of lasers and/or ion beams comprises a plurality of the same type of laser and/or ion beam.

Abstract: A method of forming a detailed image on a surface of an earthenware item is disclosed. The method comprises: (a) processing a digital image to produce an output image; (b) etching a burnable material to create peaks, valleys and indents corresponding to the output image to form a mold; (c) casting a flexible template against the mold to obtain a mirror image of the output image in the flexible template; (d) casting a surface of the earthenware in an unsintered state against the flexible template to record the output image by peaks and valleys in the surface of the earthenware item; (e) bisque firing the earthenware item in the unsintered state to render the output image permanent; and (f) applying stain to the surface of the bisque fired earthenware item and removing excess stain from of the surface of the earthenware item.

Abstract: The described embodiments relate generally to electronic devices and more particularly to methods for selectively encapsulating circuit boards and other electronic components contained within electronic devices. A first encapsulation layer can be limited to specific regions of a circuit board using a variety of processes including molding, laser ablation, etching, milling, and the like. Secondary assembly steps can then take place in the regions where the encapsulation layer is removed. In some embodiments, secondary encapsulants having various thermal, electrical, and optical characteristics can fill openings left in the first encapsulation layer to aid in the operation of underlying components.

Abstract: The disclosure relates, in one aspect, to porous solid-state films with controlled pore structures obtained by laser perforation. A thin laser-perforated film can comprise a slab defining a plurality of pores distributed in a predetermined arrangement, the plurality of pores having a distribution of sizes bound by a predetermined magnitude. In an aspect, the plurality of pores are formed in the slab with a laser having a wavelength less than about 400 nm and the slab has a transmission of the laser light of equal to or less than about 70% measured at a thickness of the slab of 100 micrometer or less.

Abstract: A stent is formed by encasing or encapsulating metallic rings in an inner polymeric layer and an outer polymeric layer. At least one polymer link connects adjacent metallic rings. The stent is drug loaded with one or more therapeutic agent or drug, for example, to reduce the likelihood of the development of restenosis in the coronary arteries. The inner and outer polymeric materials can be of the same polymer or different polymer to achieve different results, such as enhancing flexibility and providing a stent that is visible under MRI, computer tomography and x-ray fluoroscopy.

Abstract: A system prevents oxidation of a laser cut workpiece by utilizing a laser source that utilizes laser source with an inert gas, such as argon or helium, rather than air or oxygen, to create the slots or kerfs which form the pattern cut into the workpiece. The system introduces oxygen gas through the workpiece as it is being laser cut to oxidize any slag or dross created during the laser cutting process. Oxygen or a mixture of oxygen with other gases cools the slag and the workpiece while at the same time oxidizing the slag to either completely burn or partial burn the slag before it strikes an exposed surface of the tubular member.

Abstract: An apparatus for forming a pattern using a laser is provided. The apparatus includes a pattern storing unit, a controller, a laser oscillating unit, an X-Y driver, a header unit, and a stage. The pattern storing unit stores data on light guide patterns of a discontinuous straight line shape. The controller transmits position signal of the light guide patterns to the X-Y driver and simultaneously, transmits a switching signal to the laser oscillating unit. The laser oscillating unit outputs a laser beam synchronized with a movement of the header unit. The X-Y driver moves the header unit and the stage. The header unit moves along a first guide rail. The stage moves along a fixed second guide rail in the front and rear direction of the light guide panel.

Abstract: A method for manufacturing a substrate includes manufacturing a substrate with an identifying mark having a plurality of elements, the substrate having a laminated construction including a plurality of resin insulating layers. The method includes the steps of: forming a first element of the identifying mark by irradiating the substrate with a laser to create a first plurality of projections in parallel at equal intervals; and forming another element of the identifying mark by irradiating the substrate with a laser to create a second plurality of projections in parallel at equal intervals that do not overlap the first plurality of projections.

Abstract: Provided is a method for forming a capacitor. The method includes: providing an anode with a dielectric thereon and a conductive node in electrical contact with the anode; applying a conductive seed layer on the dielectric; forming a conductive bridge between the conductive seed layer and the conductive node; applying voltage to the anode; electrochemically polymerizing a monomer thereby forming an electrically conducting polymer of monomer on the conductive seed layer; and disrupting the conductive bridge between the conductive seed layer and the conductive node.

Abstract: The present invention relates to an abrasive product and to a method of manufacturing same. Such an abrasive product comprises a structured abrasive coating provided on an upper side (6) comprised by the abrasive product. Herein, abrasive grains (8) and glue (7) are molded on a backing such that the upper side of the abrasive product is provided with a three-dimensional product-specific pattern. This pattern is created by said abrasive grains and glue, which constitute an individual composite grain (9). In generating the pattern, a special computer program is utilized in a computer program product for placing said composite grains randomly over the upper side of the abrasive product. The invention also relates to a casting mould with which the thus obtained pattern may be transferred onto the upper side of the abrasive product. The invention further comprises an arrangement for manufacturing said casting mould.

Abstract: Systems and methods for forming a vacuum formed, apertured film with micro-aberrations may be disclosed. For example, a polymer web such as a molten polymer web may be received at an engagement point between a screen with a positive aberration and a roller comprising a surface with a negative depression. The roller may have a diameter of no more than about 5.5 inches. A micro-aberration may be expanded, for example, on a land of the polymer web at the engagement point by inserting the positive aberration on the screen into the negative depression on the surface of the roller at a pressure of about 1.5 to about 3.5 pounds per linear inch (PLI). Additionally, one or more apertures are formed in the polymer web adjacent to a micro-aberration on a land.

Abstract: A laser drilling method of a wiring board is provided. In the method, a laser beam shines on a wiring substrate including an insulating layer to remove a portion of the insulating layer. The wiring substrate is placed in a focus section of the laser beam. The focus section contains a central region, an optical axis located in the central region, and a peripheral region surrounding the central region. The maximum light intensity of the focus section is located in the peripheral region.

Abstract: A manufacturing method of a liquid discharging head includes: preparing a substrate having an energy-generating element and a resin layer on a first face side; irradiating a laser beam on the substrate so as to pass through the resin layer to form a hole serving as a liquid supply port in the substrate; removing a portion of the resin layer including a region which the laser beam has passed through, thereby forming a portion from which the resin layer has been removed as a channel, and forming a portion in which the resin layer remains as a side wall; and forming a discharge port forming member on a far side from the substrate of the side wall, and to form the channel forming member using the side wall and the discharge port forming member.

Abstract: A substrate structure includes an insulation base material and a through hole. The through hole passes through the insulation base material. Besides, the through hole has a first opening, a second opening, and a third opening communicated with one another. The third opening is located between the first opening and the second opening. A first included angle is formed between an inner wall of the first opening and an inner wall of the third opening. A second included angle is formed between an inner wall of the second opening and the inner wall of the third opening. The minimum diameter of the third opening is at the center of the through hole and defines a neck end portion. Diameters of the first opening and the second opening gradually decrease in a direction toward the neck end portion.

Abstract: The present invention relates to laser ablation microlithography. In particular, we disclose a new SLM design and patterning method that uses multiple mirrors per pixel to concentrate energy to an energy density that facilitates laser ablation, while keeping the energy density on the SLM mirror surface at a level that does not damage the mirrors. Multiple micro-mirrors can be reset at a very high frequency, far beyond current DMD devices.

Abstract: A method for forming a plurality of precision holes in a substrate by drilling, including affixing a sacrificial cover layer to a surface of the substrate, positioning a laser beam in a predetermined location relative to the substrate and corresponding to a desired location of one of the plurality of precision holes, forming a through hole in the sacrificial cover layer by repeatedly pulsing a laser beam at the predetermined location, and pulsing the laser beam into the through hole formed in the sacrificial cover layer. A work piece having precision holes including a substrate having the precision holes formed therein, wherein a longitudinal axis of each precision hole extends in a thickness direction of the substrate, and a sacrificial cover layer detachably affixed to a surface of the substrate, such that the sacrificial cover layer reduces irregularities of the precision holes.

Abstract: A set of antenna geometries for use in integrated arrays at terahertz frequencies are described. Two fabrication techniques to construct such antennas are presented. The first technique uses an advanced laser micro-fabrication, allowing fabricating advanced 3D geometries. The second technique uses photolithographic processes, allowing the fabrication of arrays on a single wafer in parallel.

Abstract: A polymeric tube is positioned on a polymeric mandrel and then laser cut to form an implantable medical device, such as a stent. The assembly and method reduces contamination of the inner surface of the stent, which would be caused if conventional glass or metal mandrels are used, while simultaneously reducing damage to the inner surface of the stent due to the shielding effect of the polymeric mandrel.

Abstract: Disclosed are a resin composition for laser engraving, comprising (Component A) a resin that is a plastomer at 20° C. and contains no ethylenically unsaturated group, and (Component B) a crosslinking agent, a relief printing plate precursor for laser engraving and a process for producing the same using the resin composition, and a relief printing plate and a process for making the same using the resin composition.

Abstract: A method for generating a smooth surface in a material-specimen includes generating a substantially smooth, first surface region by removing a first material-volume by particle beam etching. The first material-volume is partially defined by the first surface region. An angle between a beam direction and a surface normal of the first surface region is greater than 80° and less than 90°. The method also includes generating a substantially smooth, second surface region by removing a second material-volume. The second material-volume is partially defined by the first surface region and is partially defined by the second surface region. An angle between the beam direction and a surface normal of the second surface region is less than 60°.

Abstract: To provide a composition for laser engraving that can give a relief printing plate having excellent ink laydown and that has excellent rinsing properties after laser engraving. A composition for laser engraving, the composition that comprises (Component A) an acrylate oligomer; (Component B) a thermopolymerization initiator; and (Component C) at least one of the compounds represented by Formula (1) to Formula (7); the composition not comprising or comprising at more than 0 mass % but less than 2 mass % relative to the total mass of the composition (Component D) a resin having a weight-average molecular weight of at least 10,000, wherein R1 to R18 independently denote a hydrogen atom, an alkyl group, a substituted alkyl group, an aryl group, a substituted aryl group, a heterocyclic group, or a substituted heterocyclic group, L2 denotes a divalent organic group, L3 denotes a trivalent organic group, and L4 denotes a tetravalent organic group.

Abstract: A component is manufactured by selective laser melting by a laser having an intensity profile set largely constant by a diffractive optical element, so that the treatment surface which has occurred as a result of this profile is melted uniformly on the surface of the component. Thermal load peaks, such as occur due to an intensity maximum of an unshaped laser, can therefore be advantageously avoided. Moreover, the treatment surface may, for example, have a square shape, so that, in the case of rectangular components, it becomes simpler to produce the corners of the cross section to be manufactured. Overall, as a result, components having improved surface quality can be produced. The system is equipped with suitable optics for generating the intensity profile described.

Abstract: The present disclosure provides a liquid crystal panel, a manufacturing method thereof and a manufacturing method of a CF substrate. The manufacturing method of the liquid crystal panel includes: manufacturing a CF substrate and a TFT substrate with voltage-applying terminals, forming through holes at positions of the CF substrate corresponding to the voltage-applying terminals of the TFT substrate, and bonding the TFT substrate and the CF substrate. With the through holes formed in the CF substrate and corresponding to the voltage-applying terminals of the TFT substrate, the voltage-applying terminals can be revealed without cutting the CF substrate after the CF substrate and the TFT substrate are bonded together, which avoids reprocess due to cutting abnormality and further improves the yield rate of the liquid crystal panel.

Abstract: A method for machining a workpiece by means of a laser beam, in which material of the workpiece is removed layer-by-layer according to predetermined definitions to produce a workpiece by traversing the exposed workpiece surface in lengths across the entire surface with a laser beam in order to vaporize and/or combust workpiece material. In a first material removal phase, the laser beam is guided relative to the workpiece over the workpiece surface by adjustable mirrors inside the laser tool, more particularly without mechanical control axes being moved to adjust the relative position between the laser tool and the workpiece. In a second material removal phase, the laser beam is guided relative to the workpiece over the workpiece surface by means of one or more control axes of the machine, the focal length being variably adjustable by means of a variable optical unit.

Abstract: An apparatus for etching a pattern in an etching zone laid out on a substrate includes a pen that can be freely moved manually relative to the etching zone, the pen being equipped with an etching head able to etch the substrate at an etching point when etching is triggered, a measuring unit for measuring position and orientation of the etching head relative to the substrate, a control unit configured to calculate coordinates of the etching point as a function of the measured position and orientation of the etching head relative to the substrate, to trigger etching at the etching point if the calculated coordinates of the etching point correspond to coordinates of a point to be etched, the coordinates of the point to be etched being encoded in a prerecorded drawing of the pattern, and to automatically prevent etching otherwise.

Abstract: Disclosed herein is a method for manufacturing a printed circuit board, wherein a protective film for stripping and a metal layer closely adhered to the protective film for stripping are formed on an inner layer pad to protect the inner layer pad at the time of laser processing related to cavity processing and applying an etchant, thereby making it possible to improve reliability of a product.

Abstract: This method for forming ventilation holes in an electrode plate includes: a roughening step of roughening a surface of an electrode plate for a plasma processing apparatus such that a center line average roughness Ra becomes in a range of 0.2 ?m to 30 ?m; and a ventilation hole forming step of irradiating a laser beam having a wavelength within a range of 200 nm to 600 nm on a roughened surface of the electrode plate so as to form ventilation holes in the electrode plate which pass through the electrode plate in a thickness direction, wherein in the ventilation hole forming step, a focus spot of the laser light is swirled along a planar direction of the electrode plate so as to form a circular irradiation area, and while moving the irradiation area along a planar direction of the electrode plate in a circular movement, the focus spot of the laser light is shifted in a thickness direction of the electrode plate.

Abstract: Preparing a flexographic member (60) includes providing a digital image and calculating a relief image based on the digital image. At least one stress-sensitive boundary region (11) adjacent to at least one image feature is identified and the relief image is created on the flexographic member. The depth (18) of at least a portion of a floor region (10) adjacent the at least one image feature is increased to provide a modified floor region.

Abstract: A method for the production of a holographic sensor which comprises a support medium supporting a reflection hologram wherein the support medium interacts with its physical or chemical environment to create an optical response which is a change in one or more optical properties of the hologram, the method comprising the steps of: a) introducing a colloidal dispersion of a recording material into the support medium; and b) ablating the colloidal particles of the recording material using a pulsed laser to form the holographic element in the support medium. The method of production can be used to introduce a reflection holographic grating into a hydrophobic support medium, in particular, polydimethylsiloxane (PDMS), which possesses an extraordinary ability to swell in the presence of both liquid and/or gaseous low molecular weight hydrocarbons and organic solvents and thus has many applications as a holographic sensor.

Abstract: The invention relates to a method of manufacturing an element comprising the following steps: a) forming a body made of oxide based ceramic; b) exposing at least one portion of the external surface of the body to a reduction reaction, to remove oxygen atoms to a predetermined depth in order to make the at least one portion electrically conductive; c) depositing a metallic material starting from the at least one electrically conductive portion; d) machining the body and/or the metallic material in order to provide the element with an aesthetic finish. The invention concerns the field of timepieces.

Abstract: A spiral probe includes a tapered distal end portion (2) configured to be brought into direct contact with an inspection object, a hollow, nearly cylindrical distal body (3) extending in one direction from the base of the distal end portion (2), a hollow, nearly cylindrical flexible portion (4) integral with and continuously extending in the one direction from the distal body (3) and having a spiral outer peripheral surface, and a hollow, nearly cylindrical proximal end portion (5) integral with and continuously extending in the one direction from the flexible portion (4), wherein the distal body (3), the flexible portion (4) and the proximal end portion (5) have outer peripheral surfaces aligned with each other in the one direction.

Abstract: A coating-removal apparatus may include a source positioned on a mounting plate, and operable to emit a laser beam at a first path, where the mounting plate is configured to receive an edge of a photovoltaic module in a designated region substantially proximate to the mounting plate, such that the first path intersects the designated region, and where the mounting plate is further configured to reposition the source to create an additional path that intersects with the designated region, where the additional path is distinct from the first path.

Abstract: A structure has a processed part formed by the occurrence of photodisintegration attributed to the application of pulsed laser light. A fine periodic composition in which a plurality of processed parts are arranged in the form of grid cross points is formed in one region of the structure. A large number of regions are arranged in the structure. Each of a plurality of ranges obtained by the division of a surface in which the regions are arranged is a region-forming range. One or more regions are arranged in one region-forming range, and the arrangement directions of the processed parts formed in each of the large number of regions vary according to the region-forming ranges.

Abstract: Various flexible heat sealable decorative articles and methods of making the same are described. The flexible heat sealable decorative articles are lightweight and can be combined with other decorative elements, such as metalized films. Various decorative are mixed or combined with one another to form highly attractive flexible heat sealable decorative articles.

Abstract: A light-emitting device includes a transparent substrate, a transparent adhesive layer on the transparent substrate, a first transparent conductive layer on the transparent adhesive layer, a multi-layer epitaxial structure and a first electrode on the transparent conductive layer, and a second electrode on the multi-layer epitaxial structure. The multi-layer epitaxial structure includes a light-emitting layer. The transparent substrate has a first surface facing the transparent adhesive layer and a second surface opposite to the first surface, wherein the area of the second surface is larger than that of the light-emitting layer, and the area ratio thereof is not less than 1.6.

Abstract: A method (and the resulting product) of making a medical implant device for releasing self-contained drugs on a controlled basis wherein the method utilizes, at least in part, computer-controlled 3-D printing equipment to deposit via nozzles portions of one or more layers of the medical implant product. The implant has an outer impervious coating, an inner matrix core, an opening and an optional bonding layer.

Abstract: A cuvette for use with a spectophotometer having a capillary sample chamber having a volume of from 1 microliter to 1 femtoliter.

Abstract: A method for manufacturing an ejection element substrate, which is provided with a flow-channel-forming member having an ejection orifice for ejecting a liquid and a liquid flow channel that is communicated with the ejection orifice, a substrate having a supply port for supplying the liquid to the liquid flow channel, and a filter structure formed in the bottom of the supply port, includes: forming the supply port by forming a through-hole by etching the substrate from a second face of the substrate on the side opposite to a first face of the substrate, on which the flow-channel-forming member is disposed; providing a resinous protection film on the side face and the bottom of the supply port; and forming a minute opening in the resinous protection film in the bottom of the supply port by carrying out a laser processing from the side of the second face.

Abstract: A process is provided for protecting a component during a laser machining of the component with a hollow space. The process includes filling the hollow space with Teflon powder at least in the region of the region to be machined. The Teflon powder is introduced into the hollow space with a gelling agent.

Abstract: Systems and methods for continuous sapphire growth are disclosed. One embodiment may take the form of a method including feeding a base material into a crucible located within a growth chamber, heating the crucible to melt the base material and initiating crystalline growth in the melted base material to create a crystal structure. Additionally, the method includes pulling the crystal structure away from crucible and feeding the crystal structure out of the growth chamber.

Abstract: The invention relates to an artificial nail (4) and to a device (1) for producing an artificial nail (4) from a matrix (14) which comprises a fiber glass laminate and a suitable synthetic resin. The artificial nail (4) has excellent properties as regards its flexibility and adaptability to the respective individual fingertips or toe tips (2, 2?). The thickness (d) of the prefabricated artificial nail, a so-called tip, is fairly homogeneous and ranges from 0.1 mm to 0.4 mm. The artificial nail (4) is attached to the natural nail by means of a special, curing adhesive (5) using a selected radiation of the wavelength (?).

Abstract: Our invention allows for control of particle formation at the nanoscale, providing a means to control nanoparticle and nanostructure formation using feedback on the fly from nanoparticle characteristic analysis and optimization/knowledge extraction control algorithms. A closed loop feedback controller causes the interaction of a shaped flaser pulse with a substrate. The substrate can be one or more solid, liquid or gas or any combination thereof. Nanoparticles are produced and their characteristics are measured. The measured characteristics are compared with the desired nanoparticle characteristics. If the measured and desired characteristics are not equivalent, the closed loop feedback controller modifies the shape of the laser pulse and the next cycle begins. With successive loop of the control process the difference between the desired and measured characteristics converges until they are equivalent.