JDSU’s air-cooled argon lasers are designed for complex, high-resolution applications such as flow cytometry, DNA sequencing, graphic arts, and semiconductor inspection
Laser & Light Sources
The PL series of continuous wave, grating tuned, infrared gas lasers sets the standard for high power, stable sources for a wide variety of applications in molecular spectroscopy.
These DPSS lasers have very low noise and excellent beam quality. They have been designed for easy integration.
JDSU direct-diode laser products provide up to 180 watts output at 940 nm with 600 µm fiber delivery
The JDSU Q Series lasers are Q-switched diode-pumped UV and green lasers which are used for high-pulse-energy processing of materials such as ceramics, high-repetition-rate processing of materials such as sapphire or silicon.
The SL5 deuterium halogen light source is a miniature deuterium and halogen light source covering the spectral range of 190-1100nm.
Single Frequency Laser Diodes from Photodigm, Wavelengths, and Packages 730 nm to 1090 nm Laser Diode.
JDSU solid-state laser can be used for fiber optic sensors, coherent communications, remote antenna connections, optical heterodyne techniques, lidar, sonar and passive oscillators.
The FOL-GS-xxx G-Stack laser diode bars have 100 to 250 W power.
The highest power system with thermoelectric temperature stabilization for even better signal-to-noise ratios and DB-connector for monitoring/modulation.
The SL1 Fiber Optic Light Source for VIS - NIR applications allows one sample per fiber to be illuminated.
Popular Products
This laser beam profiler features a CMOS sensor that guarantees frame rates of up to 60 Hz with high dynamics and is suitable for large beam diameters up to 11 mm.
The beam analysis camera WinCamD-IR-BB with integrated microbolometer array enables analyzes on long-wave lasers in the range of 2 μm to 16 μm.
DataRay's ILM system is used for beam profile monitoring of high power lasers consisting of an attenuator for high powers, an imaging lens system and a camera system. The measurement of very small laser beams with diameters of less than micrometers is possible despite often high laser powers.