1653nm DFB Butterfly Laser Diode Manufacturers

532nm 1064nm Picosecond Pulse Fiber Laser For Supercontinuum Generation has the characteristics of very narrow laser pulse, high peak power and so on. The light source can be used in the scientific research of high power laser, supercontinuum, nonlinear optics and other fields. We can accept the customization of pulse width, power, repetition frequency and other parameters.

The 976nm 12W Diode Laser Chip, output power 12W, long lifetime, high efficiency, widely used in Industrial pump, Laser illumination, R&D and other fields.

The 980nm 1030nm 1064nm high power fiber optical isolators is a fiber-coupled component that allows all polarized light signal (not just the light polarized in a specific direction) to propagate along a fiber in one direction but not in the opposite direction. Functionally, it is quite like an optic-electrical diode. The 980nm 1030nm 1064nm high power fiber optical isolators are necessary in fiber optic systems in many roles the most common of which is the prevention of back-reflected light coming back down a fiber from re-entering and disrupting the operations of a laser. Boxoptronics provide 1W,2W,3W,...,10W or other high power Polarization maintaining fiber isolators.

The 1512nm 10mW DFB 14PIN Butterfly Laser For NH3 Sensing contains thermoelectric cooler (TEC), thermistor, monitor photodiode,optical isolator to secure high quality laser performance. This laser diode has been designed mainly for ammonia sensing in emissions control applications. Excellent tunability makes this laser suitable for many specialised applications in harsh environments.

Hybrid EDFA Raman Amplifier Module is widely used in long distance optical communication network and Optical fiber distributed sensing.

The 1290nm DFB 10mW Butterfly laser diode is built using discrete-mode (DM) technology, delivering a cost-effective laser diode with mode-hop free tune ability, excellent SMSR, and narrow linewidth.we can also customize wavelength, It cover from 1270nm to 1650nm.