



FemtoFiber pro SCYb
Powerful Femtosecond Fiber Laser
- Er/Yb-based fiber laser source 1030 nm
- Shortest pulses < 100 fs, more than 500 mW
- SAM mode locking, PM fiber based MOPA system
- Compact footprint, < Letter/A4 format
- Robust and reliable design, push button operation
The FemtoFiber pro SCYb is an all-fiber high-power laser system at 1030 nm emission wavelength, providing more than 500 mW on average and pulses shorter than 100 fs. It is based on a very stable SAM mode-locked Er-doped oscillator running at 1560 nm which gets frequency shifted into the 1030 nm range by use of a nonlinear fiber. The output power is then amplified by Yb-doped amplifiers to levels of up to typically 600 mW. The unit also includes a small grating compressor unit to achieve transform-limited output pulses of typ. 90-100 fs, with more than 70 % power in the main peak.
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Specification
Center wavelength 1030 nm Average output power > 500 mW (typ. 600 mW) Pulse duration typ. 100 fs Repetition rate 80 MHz standard* -
Additional Information
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Options
M40: Repetition rate 40 MHz instead of standard 80 MHz - Oscillator design with 40 MHz repetition rate
- Some specifications may change (contact us for details)
- Cannot be combined with VAR option
Mxx: Customized repetition rate, e.g. 68 MHz, 77 MHz, … AMP: Multi-Beam Systems - Extension system equipped with amplifier, but no oscillator („AMP“)
- FC/APC fiber input for external seeding by the master system
- Additional seed ports can be added to each master
- Allowing multi-beam system of up to 4 units
- Combination of all FemtoFiber pro variants possible
- Popular multi-beam systems:
MASTER Model AMP 1 Model Purpose NIR TNIR AMP CARS laser source NIR UCP AMP Broadband CARS source IR SCIR AMP OPCPA seeder system TVIS TVIS AMP Pump-probe spectroscopy
Additional seedports for future multi-beam setups Standard system includes grating compressor. Optionally the system can also be delivered without grating compressor, having then chirped output, e.g. for seeding CPA systems -
Applications
- SHG Imaging
- Multiphoton Microscopy (e.g. Red Fluorescent Proteins)
- Downloads
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Literature
- Hellerer et al., Nonlinear Microscopy Moves Into the Operating Room, Biophotonics (2016)
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