The invention relates to a method for welding between two metallic materials (2, 3) or for sintering of powder(s) (P), comprising the following steps: a/ fitting a solid plate (10), transparent at the emission wavelength(s) of a laser beam (F), between said laser (L) and at least one contact zone (4) between the metallic materials to be welded or at least one sintering zone of the powder(s); b/ emission of the laser beam, through the transparent plate, to perform welding of the materials in the contact zone(s) or sintering of powder(s) in the sintering zone(s).

A method of forming a plurality of semiconductor devices includes applying a tape material to a back side of a semiconductor device having a silicon layer on the back side and a circuitry layer on the front side, lasing with an infrared laser the silicon layer through the tape material, lasing with a second laser the circuitry layer, and expanding the tape material for form a plurality of semiconductor devices. The second layer may be an ultraviolet laser. The lasers may be irradiated in a pattern on the bottom side and the top side. The second layer may form a groove in the circuitry layer that does not penetrate the silicon layer. The infrared laser may cleave a portion of the silicon lattice of the silicon layer. A coating may be applied to the circuitry layer prior to being irradiated with the second laser.

A liquid supply mechanism disposed over a holding unit of laser processing apparatus includes a liquid chamber having a circular-disc-shaped transparent plate positioned to form a gap between the circular-disc-shaped transparent plate and an upper surface of the workpiece held by the holding table, a liquid supply nozzle that supplies a liquid from one side of the liquid chamber to the gap, a liquid discharge nozzle that discharges the liquid from the other side of the liquid chamber, and a rotation mechanism that rotates the circular-disc-shaped transparent plate and generates a flow velocity in the liquid supplied to the gap. The laser beam irradiation unit includes a laser oscillator that emits a laser beam and a condenser that condenses the laser beam emitted from the laser oscillator and irradiates the workpiece with the laser beam transmitted through the transparent plate and the liquid supplied to the gap.

The invention relates to a method for introducing a defined tear line via material removal on a cover material (20), which has a visible side (22) and a rear side (21) opposite the visible side (22), wherein a pulsed laser beam (31) from a laser (30) is directed to the rear side (21) of the cover material (20) and is guided along a path (50) and at least one observation unit (11) is provided for monitoring the weakening process, wherein a hollow chamber (32) is provided on the visible side (22) of the cover material (20) which has a scattering and/or reflecting inside surface (33) and at least one observation unit (11) is provided on the hollow chamber (32), wherein the light (40) emerging on the visible side (22) of the cover material (20) during the laser irradiation is incident on the inside surface (33) of the hollow chamber (32) and is scattered and/or reflected at least in part on the at least one observation unit (11) and the light incident on the at least one observation unit (11) is used to control the laser (30). A luminescent inside surface (33) can also be used as a hollow chamber (32).

An aircraft skin coating assembly for an aircraft. The coating assembly includes a primer layer deposited on the aircraft skin, an optical stop-etch layer deposited on the primer layer that is reflective at a predetermined wavelength, a coating stack-up deposited on the optical etch-stop layer that provides performance features for the aircraft, and a sealant layer deposited on the stack-up. When a laser coating removal process employing a laser beam is used to remove the coating stack-up for replacement, the stop-etch layer reflects the laser beam to prevent it from penetrating and possibly damaging the aircraft skin.

A component manufacturing method includes: disposing, in a fluid, an unprocessed component having a hole that has an opening in an outer surface of the unprocessed component; creating a flow of the fluid such that air bubbles resulting from laser peening performed by irradiating an inner wall of the hole of the unprocessed component with a laser beam in the fluid flow along the hole; setting an irradiation area of the laser beam in an inner surface of the hole; and in the fluid of which the flow has been created, irradiating the irradiation area with the laser beam from the side of the outer surface through the opening.

A device for laser-induced marking of an article having a marking surface comprising a non-flat portion to be marked, the device comprising: a first laser unit for emitting and scanning first laser light over a first transfer area; a first foil unit for providing a first laser transfer foil at the first transfer area; a carrier for providing the article at the first transfer area, the article having a marking surface comprising a non-flat surface area; a first hard adaptor that is transparent for the first laser light, the first hard adapter having a first contacting surface that is essentially a negative of the non-flat surface area of the marking surface; and a contacting unit for bringing the first laser transfer foil in contact with the marking surface by causing the first contacting surface to move one of the first laser transfer foil and the marking surface towards one another.

The invention is a method and an apparatus for marking an article and the article thus marked. It includes providing the article. Generating a plurality of groups of laser pulses. At least one of the plurality of groups is generated by modulating a beam of laser pulses to form a plurality of beamlets. Each, of the plurality of beamlets, include at least one laser pulse. It also includes directing the plurality of groups of laser pulses onto the article such that laser pulses within the at least one of the plurality of groups impinge upon the article at spot areas that do not overlap one another, wherein laser pulses within the plurality of groups are configured to produce a visible mark on the article.

A method for processing a transparent workpiece includes applying a fluid film having a first refractive index to a impingement surface of the transparent workpiece that has a second refractive index. Further, a difference between the first refractive index and the second refractive index is about 0.8 or less and the impingement surface comprises a surface roughness Ra of about 0.1 ?m or greater. The method also includes forming a defect in the transparent workpiece by directing a laser beam oriented along a beam pathway and output by a beam source, through the fluid film, through the impingement surface, and into the transparent workpiece such that a portion of the laser beam directed into the transparent workpiece generates an induced absorption within the transparent workpiece, the induced absorption producing the defect within the transparent workpiece.

A method and device for laser-induced marking. The method comprises providing an article having a marking surface including a non-flat area, providing a first laser transfer foil, providing a first laser unit for emitting first laser light, providing a first hard adaptor that is essentially transparent to the first laser light, the first hard adaptor having a contacting surface that essentially is a negative of at least a part of the marking surface of the article, contacting the first laser transfer foil with the marking surface of the article by the first hard adaptor such that the first laser transfer foil is arranged between the marking surface of the article and the contacting surface of the first hard adaptor, and irradiating the first laser light through the first hard adaptor onto the first laser transfer foil. The device comprises a first laser unit for emitting and scanning first laser light over a first transfer area, a first foil unit for providing a first laser transfer foil at the first transfer area, a carrier for providing an article at the first transfer area, the article having a marking surface comprising a non-flat surface area, a first hard adaptor that is transparent for the first laser light, the first hard adapter having a first contacting surface that is essentially a negative of the non-flat surface area of the marking surface, and a contacting unit for bringing the first laser transfer foil in contact with the marking surface by causing the first contacting surface to move one of the first laser transfer foil and the marking surface towards one another.