A pulse duration measuring apparatus includes a polarizing beam splitter for splitting a pulsed laser beam into a first laser beam and a second laser beam, a first mirror for reflecting the first laser beam traveling toward the polarizing beam splitter, a second mirror for reflecting the second laser beam traveling toward the polarizing beam splitter, a first quarter wavelength plate disposed between the polarizing beam splitter and the first mirror, a second quarter wavelength plate disposed between the polarizing beam splitter and the second mirror, an optical path length changing unit for moving the first mirror or the second mirror to change the length of the respective optical paths, a nonlinear crystal body for allowing a combined laser beam to pass therethrough, and a photodetector for measuring an optical intensity of the combined laser beam that has passed through the nonlinear crystal body.

A laser processing apparatus includes a support part, a light source, a spatial light modulator, a converging part, and a controller. The controller controls the spatial light modulator so that laser light is branched into a plurality of rays of processing light including 0th-order light and a plurality of converging points for the plurality of rays of processing light are located at positions different from each other in a Z direction and an X direction, and controls at least one of the support part and the converging part so that the X direction coincides with an extension direction of a line and the plurality of converging points move relatively along the line. The controller controls the spatial light modulator so that a converging point of the 0th-order light is located one side with respect to a converging point of non-modulated light of the laser light, in a Y direction.

A laser processing apparatus includes a support part, a light source, a spatial light modulator, a converging part, and a controller. The controller controls the spatial light modulator so that laser light is branched into a plurality of rays of processing light including 0th-order light and a plurality of converging points for the plurality of rays of processing light are located at positions different from each other in a Z direction and an X direction, and controls at least one of the support part and the converging part so that the X direction coincides with an extension direction of a line and the plurality of converging points move relatively along the line. The controller controls the spatial light modulator so that a converging point of the 0th-order light is located one side with respect to a converging point of non-modulated light of the laser light, in a Y direction.

A joined article includes a first component having a laser-treated surface portion and a second component having a laser-treated surface portion. An adhesive joins the first component to the second component at the treated surface portion. A method of making a joined article form components and a system for making joined articles are also disclosed.

A welding method includes: irradiating a plurality of metal foils stacked on a first surface of a metal member in a first direction with laser light to weld the metal member and the plurality of metal foils to each other, the laser light including first laser light having a wavelength of 800 [nm] or more and 1200 [nm] or less and second laser light having a wavelength of 550 [nm] or less, a second surface of a metal foil farthest from the metal member in the first direction among the plurality of metal foils, on a side opposite to the metal member, being irradiated with the laser light.

A welding method includes: irradiating a plurality of metal foils stacked on a first surface of a metal member in a first direction with laser light to weld the metal member and the plurality of metal foils to each other, the laser light including first laser light having a wavelength of 800 [nm] or more and 1200 [nm] or less and second laser light having a wavelength of 550 [nm] or less, a second surface of a metal foil farthest from the metal member in the first direction among the plurality of metal foils, on a side opposite to the metal member, being irradiated with the laser light.

A busbar includes: a plurality of members that are platy; and a welding area in which two of the members are welded, the welding area being linear and extending in a first direction, the welding area being provided approximately between both ends of at least one of the two members in the first direction.

A busbar includes: a plurality of members that are platy; and a welding area in which two of the members are welded, the welding area being linear and extending in a first direction, the welding area being provided approximately between both ends of at least one of the two members in the first direction.

An irradiation device for an additively manufacturing apparatus may include a working beam generation device configured to provide a working beam, a modulation beam generation device configured to provide a modulation beam, and a solid-state optical modulator that includes a crystalline material that exhibits a change in refractive index in response to photoexcitation of free electrons within the crystalline material. The irradiation device may include a power source coupled to the solid-state optical modulator and configured to introduce free electrons into the crystalline material. The modulation beam may cause photoexcitation of the free electrons within the crystalline material. The photoexcitation of the free electrons within the crystalline material may cause the crystalline material to exhibit a change in refractive index. The working beam, when incident upon the crystalline material, may exhibit a change in one or more parameters, such as a phase shift, attributable at least in part to the change in refractive index exhibited by the crystalline material.

A method of processing a transparent workpiece that includes directing a laser beam combination comprising a first beam and a second beam into the transparent workpiece simultaneously, the first beam passing through an impingement surface of the transparent workpiece at a first impingement location and the second beam passing through the impingement surface at a second impingement location. The first beam forms a first laser beam focal line in the transparent workpiece and generates a first induced absorption to produce a first defect segment within the transparent workpiece, the first defect segment having a first chamfer angle and the second beam forms a second laser beam focal line in the transparent workpiece and generates a second induced absorption to produce a second defect segment within the transparent workpiece, the second defect segment having a second chamfer angle, the second chamfer angle differing from the first chamfer angle.