Description
| Mode of operation | CW | |
|---|---|---|
| Available output power |
1030 – 1120 nm | Up to 25 W |
| 1533 – 1600 nm | Up to 10 W | |
| 767 – 795 nm | Up to 1 W | |
| 515 – 560 nm | Up to 5 W | |
| Linewidth | < 200 kHz | |
| Integrated RMS noise beam divergence (mrad) | DC to 100 MHz | < 0.1 % |
| Beam quality | M² | < 1.2 |
| Polarization | linear | > 17 dB |
| Operating temperature | 5° to 35°C | |
| Dimensions in mm (H x L x W) | Rack | 445 x 420 x 148 mm3 |
| SHG module1 | 125 x 50 x 30 mm3 | |
| Weight in kg | Rack | 15 kg |
| Output type | Fiber delivery for 767 – 795 nm version | < 0.2 kg |
| SHG module1 for 515 – 560 nm version | 0.5 kg |
1 SHG = Second Harmonic Generation
EYLSA is the new rack-mounted CW fiber laser, specifically designed for high performance, scientific applications in the IR and visible spectral regions. The EYLSA fiber laser combines all the attributes necessary to perform the most rigorous scientific experiments with unsurpassed reliability and no cost maintenance.
- High stability over a large temperature range
- High output power
- Insensitive to vibrations
- Single mode
- Linear polarization
- Very narrow linewidth (< 200 kHz)
- Several wavelengths available
- Wavelength locking
- Output power analog control
- Touchscreen interface
- 2-year warranty
EYLSA platform is designed to be a “Set and Forget” laser system with an installation time of less than 2 minutes out of the box. Using a double-cladded fiber optic design and pumped with single emitter laser diodes, the EYLSA provides users with superior performance over a vastly extended lifetime with no maintenance costs.
The EYLSA is designed to eliminate environmental concerns. Its rugged construction makes it insensitive to both temperature variations and vibrations. It has even been successfully used to cool atoms in an Airbus aircraft during zero gravity flight operations.
Applications
- Ti:Sa pumping
- Atom Cooling
- RAMAN spectroscopy
- Biotechnology
- Optical tweezers
- etc.
