LD20-527-PIV DPSS Laser
Description
The LD-527-PIV series are diode pumped, dual cavity, Nd:YLF laser systems ideally suited to imaging applications such as PIV and to pump applications. Output energies of up to 30mJ, 527nm per cavity at 1kHz are available. The lasers are built around a rugged self supporting invar rail that bestows excellent mechanical and optical stability. This, coupled with the proprietary resonator design, leads to excellent output beams that are spatially and temporally extremely smooth and stable, giving rise to light sheets that offer almost identical shot to shot illumination.
LD20-527-PIV DPSS Laser
Specifications |
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Avg. Power: | 20 W |
Wavelength: | 527 nm |
Repetition Rate: | 0.2-20kHz |
Spatial Mode (M^2): | 12 |
Pulse Duration: | <180 ns |
Pulse-to-Pulse Stability (RMS): | 1 % |
Cooling: | Water-to-Air |
Features
High Energy at 527nm
Twin motorised attenuators to balance pulse energies
Rugged industrial design
Field replaceable pump module
Dual cavity system
0.2-20kHz continuously variable
Applications
PIV
Particle Sizing
Ti:S Pumping
For pricing, technical or any other questions please contact the supplier
- No registration required
- No markups, no fees
- Direct contact with supplier
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Ships from:
United Kingdom
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Sold by:
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On FindLight:
since 2016
Frequently Asked Questions
The LD-527-PIV series laser can be controlled either by the in-built LCD interface or via RS232 with the supplied software suite or dll. External triggering of the lasers is accessible via a TTL interface.
The LD-527-PIV series laser features high energy at 527nm, twin motorized attenuators to balance pulse energies, a rugged industrial design, a field replaceable pump module, and a dual cavity system.
The LD-527-PIV series laser is built around a rugged self-supporting invar rail that provides excellent mechanical and optical stability.
The LD-527-PIV series laser is ideally suited for imaging applications such as PIV and pump applications.
The LD-527-PIV series laser can provide output energies of up to 30mJ, 527nm per cavity at 1kHz.