FILTER PRODUCTS

to
to
to
to

Page 7 - Lamp-Pumped

The Nano range allows a great deal of flexibility both in scientific and industrial applications. The output of these systems is multimode, however the telescopic resonators offer high energy beams with low divergences - comparable to those from unstable Gaussian coupled resonators but with a more uniform spatial profile, and a ...

Specifications

Wavelength: 266 nm
Pulse Energy: 15 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 4 ns
Repetition Rate: 0-10Hz
The Nano range allows a great deal of flexibility both in scientific and industrial applications. The output of these systems is multimode, however the telescopic resonators offer high energy beams with low divergences - comparable to those from unstable Gaussian coupled resonators but with a more uniform spatial profile, and a ...

Specifications

Wavelength: 1064 nm
Pulse Energy: 20 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 7 ns
Repetition Rate: 0-20Hz
The Nano range allows a great deal of flexibility both in scientific and industrial applications. The output of these systems is multimode, however the telescopic resonators offer high energy beams with low divergences - comparable to those from unstable Gaussian coupled resonators but with a more uniform spatial profile, and a ...

Specifications

Wavelength: 532 nm
Pulse Energy: 135 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 7 ns
Repetition Rate: 0-20Hz
The Nano range allows a great deal of flexibility both in scientific and industrial applications. The output of these systems is multimode, however the telescopic resonators offer high energy beams with low divergences - comparable to those from unstable Gaussian coupled resonators but with a more uniform spatial profile, and a ...

Specifications

Wavelength: 355 nm
Pulse Energy: 45 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 7 ns
Repetition Rate: 0-10Hz
The Nano range allows a great deal of flexibility both in scientific and industrial applications. The output of these systems is multimode, however the telescopic resonators offer high energy beams with low divergences - comparable to those from unstable Gaussian coupled resonators but with a more uniform spatial profile, and a ...

Specifications

Wavelength: 266 nm
Pulse Energy: 27 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 7 ns
Repetition Rate: 0-10Hz
The Nano range allows a great deal of flexibility both in scientific and industrial applications. The output of these systems is multimode, however the telescopic resonators offer high energy beams with low divergences - comparable to those from unstable Gaussian coupled resonators but with a more uniform spatial profile, and a ...

Specifications

Wavelength: 1064 nm
Pulse Energy: 90 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 7 ns
Repetition Rate: 0-100Hz
The Nano range allows a great deal of flexibility both in scientific and industrial applications. The output of these systems is multimode, however the telescopic resonators offer high energy beams with low divergences - comparable to those from unstable Gaussian coupled resonators but with a more uniform spatial profile, and a ...

Specifications

Wavelength: 1064 nm
Pulse Energy: 150 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 7 ns
Repetition Rate: 0-50Hz
The Nano range allows a great deal of flexibility both in scientific and industrial applications. The output of these systems is multimode, however the telescopic resonators offer high energy beams with low divergences - comparable to those from unstable Gaussian coupled resonators but with a more uniform spatial profile, and a ...

Specifications

Wavelength: 1064 nm
Pulse Energy: 200 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 6 ns
Repetition Rate: 0-20Hz
The Nano range allows a great deal of flexibility both in scientific and industrial applications. The output of these systems is multimode, however the telescopic resonators offer high energy beams with low divergences - comparable to those from unstable Gaussian coupled resonators but with a more uniform spatial profile, and a ...

Specifications

Wavelength: 1064 nm
Pulse Energy: 200 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 6 ns
Repetition Rate: 0-10Hz
The Nano range allows a great deal of flexibility both in scientific and industrial applications. The output of these systems is multimode, however the telescopic resonators offer high energy beams with low divergences - comparable to those from unstable Gaussian coupled resonators but with a more uniform spatial profile, and a ...

Specifications

Wavelength: 1064 nm
Pulse Energy: 340 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 7 ns
Repetition Rate: 0-10Hz
The Nano range allows a great deal of flexibility both in scientific and industrial applications. The output of these systems is multimode, however the telescopic resonators offer high energy beams with low divergences - comparable to those from unstable Gaussian coupled resonators but with a more uniform spatial profile, and a ...

Specifications

Wavelength: 1064 nm
Pulse Energy: 30 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 6 ns
Repetition Rate: 0-50Hz
The Nano range allows a great deal of flexibility both in scientific and industrial applications. The output of these systems is multimode, however the telescopic resonators offer high energy beams with low divergences - comparable to those from unstable Gaussian coupled resonators but with a more uniform spatial profile, and a ...

Specifications

Wavelength: 1064 nm
Pulse Energy: 60 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 6 ns
Repetition Rate: 0-30Hz
The TRLi G 850/450 Range Gaussian-Coupled Compact High Energy Pulsed Nd:YAG LasersHigh Energy Lasers in a Compact Package designed for multitude of applications.Energies available up to 850mJ at 1064nm and repetition rates up to 20Hz. Harmonics available up to 213nm. The Gaussian resonator configuration provides the lowest values for ...

Specifications

Wavelength: 1064 nm
Pulse Energy: 850 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 6 ns
Repetition Rate: 10-200Hz