The Helium-Neon-lasers are designed for multipurpose application, such as confocal laser scanning microscopy, spectroscopy, digital imaging, metrology, industrial measurements, positioning, alignment, aiming, testing, bar code scanning, medicine, science, education, entertainment, and so on. Customized solutions for specific application are optional. Helium-Neon-laser tubes and modules are of robust mechanical design, excellent beam quality, long life up to 20,000 hours and optimum customer efficiency, with warranty up to 12 months for all standard types.
Model
Description
AH005P
Min Output (TEM00):0.5mW, Minimum Polarization Ratio 200:1
AH006R
Min Output (TEM00):0.6mW, Minimum Polarization Ratio Random
AH010R
Min Output (TEM00):1mW, Minimum Polarization Ratio Random
AH020R
Min Output (TEM00):2mW, Minimum Polarization Ratio Random
AH020P
Min Output (TEM00):2mW, Minimum Polarization Ratio 500:1
AH050R
Min Output (TEM00):5mW, Minimum Polarization Ratio Random
AH050P
Min Output (TEM00):5mW, Minimum Polarization Ratio 500:1
AH050M
Min Output (TEM00):5mW, Multimode
AH100R
Min Output (TEM00):10mW, Minimum Polarization Ratio Random
AH100P
Min Output (TEM00):10mW, Minimum Polarization Ratio 500:1
AH100M
Min Output (TEM00):10mW, Multimode
AH150R
Min Output (TEM00):15mW, Minimum Polarization Ratio Random
AH180R
Min Output (TEM00):18.0mW, Minimum Polarization Ratio Random
AH180P
Min Output (TEM00):18.0mW, Minimum Polarization Ratio 500:1
AH200R
Min Output (TEM00):20.0mW, Minimum Polarization Ratio Random
● Operates at 543nm, 594nm, 604nm, 612nm, and 633nm ● Excellent Power, Beam Point & Thermal Stability
The 5-color tunable laser is ideal for applications requiring multiple wavelength references for calibration and as a general-purpose visible tunable light source for optical testing. It is the only commercially available multi-line HeNe laser that offers selectable operation. It operates on all of the main visible neon laser transitions (543nm, 594nm, 604nm, 612nm, and 633nm), a feature that makes it a versatile and economical research tool. The system uses a low loss plasma tube with one sealed Brewster window and an external Littrow prism. By adjusting the angle of the Littrow with micrometer adjustments on the rear panel, the user can select among the five wavelengths. A power supply is housed internally in the laser, making the unit completely self-contained.