Table of Contents
Applications and Capabilities of Green Fiber Lasers
A large-scale green fiber laser production allows us to serve new markets and applications in increasing number. Now it’s possible to visually trace high-energy particle flows in gases and to further characterize them with the help of powerful green lasers. Green fiber lasers can also be used for photoacoustic measurements of hemoglobin.
Pulsed Green Fiber Lasers
Today, many scientists believe that pulsed green fiber lasers are much more productive and compact than other available lasers. The pulsed green fiber lasers supply a high peak power with an average output of 10W, which can be scaled. Higher powers of Optromix’s lasers, it should be noted, are in the works. Such lasers possess a pulse duration of just 1 ns and a frequency of 50 to 600 kHz also includes also featuring M2 of less than 1.2, a collimator, and a narrow line width at 532 nm.
Continuous Wave (CW) Green Fiber Lasers
In addition to pulsed green fiber lasers, there are continuous wave (CW) lasers. The CW lasers emit a continuous or, in other words, permanent laser beam with a controlled heat output. By dint of the CW lasers, it becomes possible to control the heat output, as beam duration or intensity. The CW lasers, especially, are typical tools in semiconductor research, because through their use, laser beams can be directed into a port in the spectrometer directly onto the sample. Such CW lasers are available for use with a wide diversity of fiber terminations, collimation optics, and processing heads.