COMPACT LASERS
Compact Pulsed Nd:YAG Lasers
Output energies up to 340mJ at 1064nm. Repetition rates up to 300Hz.
Harmonics available 532nm, 355nm, 266nm & 213nm.
The Litron’s Nano Series – Small in size, big in performance.
A family of compact and rugged Q-switched lasers suited to a multitude of applications including mask repair, LIBS, LIDAR, PIV, pump sources and spectroscopy.
The Nano series of pulsed Q-switched Nd:YAG lasers have been designed to satisfy the demands of customers today. With industry leading performance in every respect, and unsurpassed design and build quality, the Nano series sets the new benchmark for laser systems today.
At the heart of all lasers in the Nano range is a robust monolithic resonator machined from a solid piece of aluminium leading to a solid and stable platform on which the systems are built. Ultra-stable mirror mounts, a stainless steel pumping chamber with close coupled ceramic reflectors, and proprietary long-life flashlamps result in homogeneous, stable outputs.
Accessories such as harmonic generators and variable attenuators are added as modular ‘bolt-on’ attachments and can be added and removed as required. All harmonics to the fifth (213nm) are available as standard, either individually or mixed.
All lasers in the range are supplied with fully integrated power supply and cooler units with no need for external water. All power supplies have a full interlock suite making setup and fault diagnosis easy. An industry standard TTL interface allows external control of both the flashlamp and Q-switch. Other system controls are accessible via the supplied system remote controller or RS232. When running with RS232 a full software suite, dll and byte code documentation is provided.
Applications include:
- PIV
- LIBS
- Spectroscopy
- LIDAR
- ESPI
- Pump Source
- Combustion Research
Nano Series features:
- Output energies up to 340mJ
- Stable telescopic resonator
- Electronically verified safety shutter
- 2nd, 3rd, 4th and 5th harmonics
- High energy TEM00 option available
- Choice of stable, telescopic or super-Gaussian resonators
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