PL3140 series picosecond mode-locked Nd:YLF lasers
PL3140 series mode-locked picosecond Nd:YLF lasers have excellent output parameters, are reliable and still remain simple and convienent to use. Pulse duration as short as 8 ps is achieved without any sacrifice on beam quality.
Features
- Up to 50 mJ per pulse at 1053 nm
- Saturable dye mode-locking
- Patented master osccilator design for extending the lifetime of saturable dye
- Pulse duration as short as 8 ps at 1053 nm
- 10 Hz repetition rate
- Excellent pulse energy (< 2 %) and duration (< 1.0%) stability
- Streak camera triggering option
- < 0.1 ns optical jitter
- External triggering
- Synchronous operation with other devices
- Thermo stabilized second, third or fourth harmonic options
- PC control using RS232 and LabView drivers
- Remote control via keypad
Applications
- OPG pumping
- Nonlinear spectroscopy
- SFG/SHG spectroscopy
- Material research
- Dynamic grating/degenerate 4 wave mixing
- Spatial soliton generation
- Time resolved spectroscopy
- Remote laser sensing
- Satellite ranging
- Other spectroscopic and nonlinear optics experiments
- Your application is welcome…
PL3140 series picosecond mode-locked lasers are the industry’s leading source for short pulse, high-energy picosecond pulses for scientific applications. These mode-locked lasers have excellent output parameters, are reliable and, at the same time, remain simple and convenient to use.
When combined with our PG400, PG500 and PG411/511 series picosecond optical parametric generators (OPG), the PL3140 series picosecond lasers may become a very powerful tool in spectroscopy.
The output pulse energy, stop, burst and single shot operation modes can be set to match the exact experiment task.
The output power is continuously adjustable without changing the output beam profile/divergence.The very low jitter of the optical pulse with respect to the sync pulses allows reliable synchronization of the laser with independent registration equipment.
The compact power supply and cooling unit easily fits under tables and saves valuable lab space.
The output pulse energy, stop, burst and single shot operation modes can be set to match the exact experiment task.
The output power is continuously adjustable without changing the output beam profile/divergence.The very low jitter of the optical pulse with respect to the sync pulses allows reliable synchronization of the laser with independent registration equipment.
The compact power supply and cooling unit easily fits under tables and saves valuable lab space.