A laser collimating module includes a heat dissipating base having a fixing element on a top thereof and a plurality of pins at a bottom thereof, a laser diode chip disposed on the fixing element, a cap covering on the heat dissipating base with a placing space therein and an opening on a top thereof, and a cylindrical lens disposed in the placing space. The opening of the cap is connecting to the placing space and aligning with the laser diode chip correspondingly. The cylindrical lens has a first surface facing toward the laser diode chip with a first minimized distance arranged therebetween and a second surface facing toward the opening with a second minimized distance arranged therebetween. The laser diode chip is stimulated and emits an elliptical laser beam, and a light emitting angle is formed. As the elliptical laser beam passes through the cylindrical lens, the light emitting angle is narrowed and the laser beam is collimated to be a linear beam.

A semiconductor laser device includes: a semiconductor laser including a plurality of emission regions into which currents are injected to emit laser beams and first and second major surfaces opposite to each other; and a plurality of first wires bonded to the first major surface of the semiconductor laser, wherein the first major surface of the semiconductor laser has a first stripe region corresponding to one of the plurality of emission regions, and a second stripe region corresponding to another of the plurality of emission regions, and the number of the first wires bonded to the first stripe region is larger than the number of the first wires bonded to the second stripe region.

A lighting apparatus for a vehicle may include a light source for emitting polarized beams in different directions, a filter for receiving the polarized beams emitted from the light source, reflecting a first of the polarized beams, and transmitting a second of the polarized beams, a reflective condenser for receiving the polarized beams from the filter, and focusing the received polarized beams on a focal point, and an emitter disposed on a path, along which the polarized beams emerging from the reflective condenser travel to be focused, to emit the received polarized beams as light of a predetermined color.

A lighting apparatus for a vehicle may include a light source unit comprising at least two light sources emitting polarized beams in different directions, a filter configured to receive the emitted polarized beams, reflect one of the polarized beams, and transmit another of the polarized beams, and an emitter configured to receive the polarized beams from the filter, and emit the received polarized beams as light of a predetermined color.

A header, with improved cooling for electronic components for radio frequency signal transmission, for an electronic component for radio frequency data transfer, includes: a metallic base body including a plurality of electrical feedthroughs; a thermoelectric cooling element having one side bearing on the base body and an opposite side for mounting the electronic component; a radio frequency line to the electronic component being on the side for mounting the electronic component, with a ground conductor that is electrically connected to the metallic base body, the electrical connection to the metallic base body including a telluride element.

A semiconductor laser device includes a substrate including a main surface, a semiconductor laser element including a resonator extending along a first direction, and a plurality of first wire groups and a plurality of second wire groups arranged along the first direction. Each first wire group includes a first wire bonded to a first bonding region of a top surface of the semiconductor laser element and a first mark portion, and a first mark portion formed on the main surface. Each second wire group includes a second wire bonded to a second bonding region of the main surface, and a second mark portion formed on the main surface. In a top view of the main surface, the first wire is disposed at a position overlapping the first mark portion, and the second wire is disposed at a position overlapping the second mark portion.

The embodiments described herein provide a device and method for an integrated white colored electromagnetic radiation source using a combination of laser diode excitation sources based on gallium and nitrogen containing materials and light emitting source based on phosphor materials. A violet, blue, or other wavelength laser diode source based on gallium and nitrogen materials may be closely integrated with phosphor materials, such as yellow phosphors, to form a compact, high-brightness, and highly-efficient, white light source.

An optical element, an optical element monitoring system, and a method, monitor in real time whether an optical element such as a diffractive optical element or a diffuser in an active light emitting module is damaged or falls off, and turn off a laser when the optical element is damaged or falls off.

There are provided high power, high brightness solid-state laser systems that maintain initial beam properties, including power levels, and do not have degradation of performance or beam quality, for at least 10,000 hours of operation. There are provided high power, high brightness solid-state laser systems containing Oxygen in their internal environments and which are free from siloxanes.

There are provided high power, high brightness solid-state laser systems that maintain initial beam properties, including power levels, and do not have degradation of performance or beam quality, for at least 10,000 hours of operation. There are provided high power, high brightness solid-state laser systems containing Oxygen in their internal environments and which are free from siloxanes.