PEFL-EOLA - 1.5 µm Long Pulse Fiber Laser
Description
PEFL-EOLA are pulsed Erbium fiber doped lasers delivering Fourier transform limited pulses. These eye-safe pulsed lasers are coming linearly polarized. These lasers have excellent RIN and phase noise characteristics. The Keopsys design allows the lasers to deliver energy pulse up to 10 µJ, pulsewidth ranges from 100 to 500 ns, and an output beam diffraction limited (M²<1.1). The laser system is highly integrated, saving space and cost of integration, which makes it ideal for Doppler heterodyne LIDAR systems.
PEFL-EOLA - 1.5 µm Long Pulse Fiber Laser
Specifications |
|
---|---|
Wavelength: | 1550 nm |
Average Output Power: | Up to 4 W |
Pulse Duration: | 100-800ns |
Beam Quality (M^2): | <1.1 to <1.5 |
Max Pulse Repetition Rate: | From 10 to 20 kHz |
Energy Per Pulse: | Up to 400 µJ |
Features
- Eye-safe 1.5 μm operating wavelength
- Energy per pulse up to 400 μJ
- Peak power up to 900 W
- Pulse duration from 100 to 800 ns
- Pulse repetition frequency from 10 kHz to 20 kHz
- Low RIN and low phase noise
- Linear Polarization
- Fourier transform limited linewidth operation
- Diffraction limited M² <1.1 or <1.5
- Wide operating temperature range from 10°C to +65°C
- Highly integrated design
Applications
- Aerosol detection
- 2D/3D wind profiler
- Weather monitoring
- Pollution monitoring
- Turbine mounted LiDAR
- Wind hazard and wake vortices monitoring
- Wind farm optimization
For pricing, technical or any other questions please contact the supplier
- No registration required
- No markups, no fees
- Direct contact with supplier
-
Ships from:
France
-
Sold by:
-
On FindLight:
since 2019
Frequently Asked Questions
The operating wavelength of the PEFL-EOLA laser is 1.5 µm.
The laser can deliver energy per pulse up to 400 µJ.
The peak power of the laser can reach up to 900 W.
The pulse duration ranges from 100 to 800 ns.
The laser can be used for aerosol detection, 2D/3D wind profiler, weather monitoring, pollution monitoring, turbine mounted LiDAR, wind hazard and wake vortices monitoring, and wind farm optimization.