Diode lasers use laser diodes as beam sources. One advantage of laser diodes is their extremely small dimensions, which are reflected in the compactness of diode laser systems. The spectral properties of laser diodes can be optimized both electrically and optically for a wide range of applications. For example, low optical feedback for laser radiation can lead to an extremely low spectral bandwidth for a laser diode. Laser 2000 offers diode laser systems and modules for applications in fluorescence microscopy, Raman spectroscopy, flow cytometry, measurement technology, and more.
Innovative Photonic Solutions’ single-mode wavelength stabilized lasers feature high output power with ultra-narrow spectral bandwidth and a diffraction limited output beam. Designed to replace expensive DFB, DBR, fiber, and external cavity lasers.
Laser Diode System from the LaserBoxx Diode Laser System Product Range.
The CNI series cw diode lasers are available with nearly all commercial available wavelengths.
Fiber-coupled diode laser with high performance and current and temperature control in a compact housing
JDSU direct-diode laser products provide up to 180 watts output at 940 nm with 600 µm fiber delivery
The pulsed picosecond diode lasers of the EPL series are ideal excitation sources for the measurement of fluorescence lifetimes and other time-resolved measurements.
FOL-Dlight-Series High power diode laser system.
Monitor and control your single laser or even up to 32 at the same time with the microcontroller option.
The SWS diode laser integration modules consist of diode laser, fiber delivery and galvanometer scanning head. The modules are available in 300 W and 500 W laser power.
The ILE Barrelbeam is a battery powered laser that can be aligned in the X- and Y-axis.
Fine-adjustable laser beam with an adjustment accuracy of 0.12 mrad.
Fine-tunable laser with an adjustment accuracy of 0.12 mrad.