SOL-20-532: 532nm Nanosecond Laser

Get Quote Ask Engineer



pulse width


output power

pulse energy

rep rate



SOL-20 532nm Nanosecond Laser

laser trimming for accurate control of electric resistance in circuit components

SOL is the most compact Q-switched DPSS nanosecond laser available in the 4W to 40W power range. These air-cooled DPSS nanosecond lasers are offered in a rugged and lightweight single unit, designed to allow easy and reliable integration in micro-machining and marking applications. The SOL single unit design is based on a permanently aligned monolithic optical resonator integrated with 24 Vdc powered driving electronics. Cooling of the unit is provided by low noise fans.

Gray scale laser marking on plastic cards

Due to the Single Unit design, optical fibers and other delicate cable connections will not be necessary for system integration. Compactness, insensitivity to environmental conditions and ease of handling guarantee superior operational flexibility and performance/cost ratio. The high peak power and the excellent beam quality of SOL lasers make them the ideal source for the most demanding industrial and scientific applications.

The new electronic interface allows the user to integrate the laser according to the most recent safety standards for industrial machines (EN 13849) and to monitor the laser status through an RS232 port.  A new version of the Control Box and a new proprietary Software Interface are available for simplified remote control and monitoring.







Up to 40W @ 1064nm
Up to 20W @ 532nm
300 kW peak power
Compact Air-cooled Single Unit
Up to 200 kHz repetition rate
Electronic pulse energy modulation
Sealed and rugged
Monolithic design
24 V dc
RS232 monitor port

Options Available:

Beam expanding and collimating optics
Fiber Coupling
Red aiming beam
Extended operating temperature range
Extended frequency range
Pulse width modulation
Circular Polarization
Monitoring Photodiode
Remote Control Box and Software Interface
AC-DC Power Supply



* clean ITO removal      * undamaged polymeric substrate      * tested for electrical insulation
120 nm thick ITO layer removal on polymeric substrate


Material Processing
Thin film removal
Nonlinear optics
Medical and Aesthetic


Request a Demo Laser


Request Apps Lab Testing