FEATURES
High pulse energy – up to 1000mJ at 1064nm
Repetition rates up to 30Hz
Stable telescopic or super-Gaussian resonator
Low profile Invar stabilised rail
Line narrowed versions available
Seeded versions available
Rugged industrial system
APPLICATIONS
LIBS
LIF
Spectroscopy
LIDAR
LIDT
OPO Pumping
Materials Processing
Pulsed Laser Deposition
Thomson Scattering
10Hz Super-Gaussian Coupled or Stable Telescopic Pulsed Nd:YAG Lasers
Energies available up to 1000mJ at 1064nm.
Repetition rates up to 10Hz.
Harmonics available: 532nm, 355nm, 266n & 213nm.
Super-Gaussian resonators produce very low-divergence, single transverse mode output beams.
Telescopic resonators produce low-divergence output beams that are spatially smooth in the near field suiting them to a host of pump source applications.
20Hz Super-Gaussian Coupled or Stable Telescopic Pulsed Nd:YAG Lasers
Energies available up to 850mJ at 1064nm.
Repetition rates up to 20Hz.
Harmonics available: 532nm, 355nm, 266nm & 213nm.
Super-Gaussian resonators produce very low-divergence, single transverse mode output beams.
Telescopic resonators produce low-divergence output beams that are spatially smooth in the near field suiting them to a host of pump source applications.
True TEMoo Stable Telescopic Pulsed Nd:YAG Lasers
Energies available up to 350mJ at 1064nm.
Repetition rates up to 30Hz.
Harmonics available: 532nm, 355nm, 266nm & 213nm.
High energy true TEMoo outputs are obtained by means of an intra-cavity aperture behind the telescope within a telescopic resonator. The output beams from such systems typically have divergences that are within 15% of the diffraction limit. These systems therefore have output beams that are super-Gaussian in both the near field and far field.