Ricoh Develops Semiconductor Laser, "High-Power VCSEL Module"
OREANDA-NEWS. July 07, 2016.
1. High output performance
The standalone output of the VCSEL array is 310W, and with the fiber output module output is 200W, achieving unprecedented high output for a fiber coupled VCSEL module*3.
2. Compact size using MLA mounting technology
The VCSEL module uses a VCSEL array with a large number of light-emitting channels on its surface, along with a micro lens array (MLA) that integrates lenses corresponding to each light-emitting channel on a single chip. As a result, the VCSEL module is more compact as it has fewer components when compared with modules using conventional edge-emitting type lasers.
3. Wavelength stability in variable temperatures
Due to its structure, VCSEL features exceptional wavelength stability in variable temperatures, offering around ten times the thermal stability in wavelength compared with conventional edge-emitting type lasers. In solid-state laser excitation used in applications such as the laser crystals of laser ignition plug heads, the wavelength stability of the excitation light is vital to achieving stable output. As a result of the aforementioned wavelength stability, a precision temperature control unit is not required, allowing a significant reduction in size of the VCSEL module.
In addition to these technological advantages, Ricoh is able to combine its unique optical technologies to supply laser devices and modules for a wide range of applications. Ricoh is also looking to expand into applications such as laser processing machines, surface treatment processing such as laser patterning, non-thermal processing and sensing, as well as the development of other applications.
*1 VCSEL is a type of semiconductor laser device known as a surface-emitting laser. Compared with conventional edge-emitting semiconductor laser elements, VCSEL devices are easier to manufacture, handle and install. VCSEL devices benefit from increased reliability, because there are no malfunctions caused by damage to the surface by the laser beam, even in high output operation.
*2 This development has received partial assistance under the Program for Strategic Innovative Energy Saving Technology run by the New Energy and Industrial Technology Development Organization (NEDO).
*3 Drive Conditions: pulse width: 500?s, repetition cycle: 20Hz.
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