EQ Photonics GmbH - Femtosecond laser - FemtoYL-50
EQ Photonics
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Ships from:
Germany
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Sold by:
EQ Photonics -
On FindLight:
since 2025
Description
The FemtoY-50 is an industrial-grade infrared femtosecond laser based on fiber CPA (Chirped Pulse Amplification) technology. It uses a passively mode-locked all-fiber oscillator to generate femtosecond pulses, ensuring high reliability and long lifetime. The laser delivers 300 fs pulses at a wavelength of 1030 nm, with up to 50 W average power and 300 µJ pulse energy. It offers a repetition rate range of 25 kHz to 5 MHz, excellent beam quality, and stable, low-maintenance operation for round-the-clock use.
EQ Photonics GmbH - Femtosecond laser - FemtoYL-50
EQ Photonics
Specifications |
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Wavelength: | 1030 nm |
Repetition Rate: | 5 MHz |
Output Power: | 50 W |
Pulse Duration: | 300 fs |
Central Wavelength: | ~1030(±5) nm |
Total Power: | >50 W |
Power Stability: | <1% |
Pulse Width: | ~ 300fs - 6ps adjustable |
Switch Light Response: | <5 μs |
Beam Quality: | M2<1.3 |
Spot Diameter: | ~ 2mm / 3mm |
Synchronous Output: | SMA TTL Signal |
Control Method: | RS232/GATE |
Features
- High Average Power: Up to 100 W for demanding industrial applications
- Ultra-short Pulses: 300 femtosecond pulse duration for high-precision processing
- High Pulse Energy: Up to 300 µJ for efficient material ablation
- Wide Repetition Rate Range: Adjustable from 25 kHz to 5 MHz
- Excellent Beam Quality: Ensures precise and clean machining results
- Stable and Reliable: 24/7 operation with minimal downtime
- Wavelength: 1030 nm for compatibility with various materials
Applications
- OLED Module Cutting
- 5G Antenna Module Cutting (LCP/MPI)
- FPC Material Cutting/Drilling
- Brittle Material Cutting/Drilling/Scribing
- Semiconductor Material Cutting/Scribing
- Polymer Composite Material Cutting/Drilling
- Precision Micromachining
- Nonlinear Optics Experiments
- Optical Parametric Chirped Pulse Amplification (OPCPA)
- Time-Resolved Spectroscopy and Pump-Probe Measurements
- Material Characterization under Ultrafast Excitation