Ultrafast Fiber Laser
What Is an Ultrafast Fiber Laser?
Product Features
Applications
- Multiphoton imaging (CARS, SRS)
- Multiphoton 3D printing and precision micromachining
- Biomedical tissue cutting and microsurgery
- Terahertz time-domain spectroscopy (THz-TDS)
- Laser metrology and micro/nano 3D printing
- Fiber and solid-state ultrafast laser seed sources
- Ultrafast laser seed sources for gas lasers
- Nonlinear optics research
- Precision scientific research and instrumentation
Technical Specifications
| Product Type | Typical Output Wavelength | Pulse Width | Spectral Width | Typical Repetition Frequency |
|---|---|---|---|---|
| 515nm Femtosecond Fiber Laser | 515 nm | ≤150 fs | 2 nm | 25 MHz |
| 532nm Picosecond Fiber Laser | 532 nm | 15 ps | 2 nm | 20 MHz |
| 780nm Femtosecond Fiber Laser | 780 nm | <100 fs | >9 nm | 80 MHz |
| 780nm Femtosecond Fiber Laser | 780nm | ≤150 fs | 80 MHz | |
| 780nm Femtosecond Fiber Laser | 785nm | ≤180 fs | 80 MHz | |
| 780nm Picosecond Fiber Laser | 775nm | 15ps | 80 MHz | |
| 1030nm Picosecond Fiber Seed Source | 1030nm | 10ps | <0.5 nm | 20MHz |
| 1030nm Picosecond Selectable Fiber Seed Source | 1030nm | 10ps | <1nm | 10kHz-10MHz |
| 1053nm Picosecond Fiber Seed Source | 1053nm | 10ps | <0.5nm | 20MHz |
| 1053nm Picosecond Selectable Fiber Seed Source | 1053nm | 10ps | <1nm | 50kHz-10MHz |
| 1064nm Picosecond Fiber Seed Source | 1064.3nm | 10ps | <0.5nm | 20MHz |
| 1064nm Picosecond Selectable Fiber Seed Source | 1064.3nm | 10ps | <1nm | 10kHz-10MHz |
| 1030 Femtosecond Fiber Seed Source | 1030nm | 2ps | >10nm | 25MHz |
| 1030nm Femtosecond Selectable Fiber Seed Source | 1030nm | 4ps | > 10 nm | 50kHz-10MHz |
| 1030nm Femtosecond Stretched Fiber Seed Source | 1030nm | 70-800ps | >6 nm | 25MHz |
| 1030nm Femtosecond Stretched Selectable Fiber Seed Source | 1030nm | 60-700ps | >6 nm | 50kHz-10MHz |
| 1030nm Femtosecond Fiber Laser | 1030nm | <150 fs | >10 nm | 25 MHz |
| 1030nm Femtosecond Fiber Laser | 1030nm | ≤50 fs | >10 nm | 25 MHz |
| 1064nm Femtosecond Fiber Laser | 1064nm | ≤100fs | >10 nm | 40MHz |
| 1030nm High Power Femtosecond Fiber Laser | 1030nm | 400fs-10ps | 10 nm | 100kHz-5MHz |
| 1030nm Millijoule Femtosecond Laser | 1030nm | <300 fs | 5 nm | 1-250 kHz |
| 1064nm Picosecond Fiber Laser | 1064nm | 10ps | 50kHz-10MHz | |
| 1560nm Femtosecond Fiber Laser | 1560nm | <70fs | 80MHz | |
| 1560nm Femtosecond Fiber Laser | 1560nm | <150fs | 80MHz | |
| 1560nm Picosecond Fiber Laser | 1560nm | <20 ps | <2 nm | 80MHz |
| Repetition Rate Locked Ultrafast Fiber Laser | Wavelength optional*1 | 10ps | 1nm | 40MHz |
| Asynchronous Sampling Femtosecond Fiber Laser | Wavelength optional*2 | ≤120 fs | >9 nm | 80 MHz |
*1: 1030nm, 1053nm, 1064nm, 1550nm, 1560nm, 1570nm; *2: 780 nm, 1560nm.
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Femtosecond Fiber Laser Series – Ultrafast Precision Solutions by Solid Laser
At Solid Laser, we deliver next-generation ultrafast fiber laser systems which are aimed at producing pulses of femtosecond and picosecond pulses with outstanding stability. Our lasers offer clean stable output, enabling cutting-edge research, high speed measurements and advanced industrial applications.
The series is engineered as an Ultrashort Pulse Laser platform, delivering Stable Pulse Output for demanding scientific, industrial, and photonics applications.
What Is an Ultrafast Fiber Laser and How Does It Work?
Ultrafast fiber laser produces high-speed short light pulses, typically in the femtosecond or picosecond range. It operates on the principle of enhancing light through specifically designed optical fibers while maintaining high quality of the beam.
This operation produces high peak power with low level of heat enabling precise, repeatable interactions with materials, making it ideal for applications in research, industrial processing, and advanced photonics experiments.
Its High Peak Power Laser architecture supports precise material interaction while maintaining excellent process control and accuracy.
Key Features of Solid Laser’s Ultrafast Fiber Lasers
At Solid Laser, our ultrafast fiber lasers are designed for high performance, stable and long time reliability in research and industrial applications.
Advanced system design enables Precision Pulse Control and Low Timing Jitter, helping ensure reliable performance in high-speed measurement environments.
- Stable laser output with clear and clean pulses.
- Higher repeating rates for super fast experiments.
- Smart cooling to maintain constant operation.
- Easy-to-use controls for simple setup.
- Low timing variations for accurate results.
- Durable design for lab and industrial use.
Applications of Ultrafast Fiber Lasers
Ultrafast fiber lasers are applicable in research and industry for precise, high-speed operations. Both femtosecond fiber laser and picosecond fiber laser systems provide uniform pulses in numerous advanced applications.
- Laser machining and micro fabrication.
- Medical device processing.
- Nonlinear spectroscopy.
- Time-Resolved Spectroscopy.
- Time-resolved imaging.
- Optical coherence tomography.
- High-speed material inspection.
Advantages of Femtosecond and Picosecond Fiber Lasers
At Solid Laser we design ultrafast fiber lasers to be precise, stable and reliable. Our femtosecond fiber laser delivers highly regulated and repetitive pulses for advanced research and industrial applications.
- Extremely short pulse durations
- High peak power output
- Minimal thermal effects
- Excellent beam quality
- Reproducible performance
- Multifunctional integration.
Reliable Ultrafast Laser Solutions by Solid Laser
At Solid Laser, our Femtosecond fiber laser and Picosecond fiber laser platforms are engineered for precision, stability, and long-term operational reliability. We design advanced ultrafast laser systems that enable challenging scientific research, high precision manufacturing, photonics development, and high speed analytical applications.
We design, build and test our systems to deliver stable pulse performance, precise interaction with material, excellent beam quality, and efficient integration with advanced laboratory, photonics, and industrial processing environments.
The advanced laser architecture also ensures reliable long-term operation, supporting the researchers and engineers to achieve accurate, repeatable and high-speed processing performance in challenging scientific and industrial applications.
Our ultrafast laser platforms are designed to provide:
- Stable pulse delivery for repeatable performance.
- High beam quality for precision applications.
- Low material impact when interacting with the material.
- Easy integration to research and OEM systems.
- Stable performance in laboratory and industrial applications.
- High-speed optical processes with advanced pulse control.
Frequently Asked Questions
High-speed fiber lasers produce very short pulses of several picoseconds or femtoseconds, with high peak power and low heat effect, which are essential in making precise applications. This Ultrashort Pulse Laser design supports advanced industrial processing and high-precision photonics research environments efficiently.
Yes, both Femtosecond fiber laser and picosecond fiber laser systems are ideal in the research of non-linear optics due to their short pulses and clean beam. Their Stable Pulse Output helps maintain reliable experimental accuracy during demanding nonlinear optical and spectroscopy applications.
Yes, built-in software enables the users to modify pulse parameters, repetition rates, and to monitor the performance of the system in use. This functionality supports Precision Pulse Control for advanced laboratory experiments and industrial laser processing operations. The control system is compatible with both Femtosecond fiber laser and Picosecond fiber laser configurations for flexible operation.
Our engineering team performs strict testing and calibration to ensure repeatable pulse performance and stable ultrafast laser operation. Advanced engineering also minimizes Low Timing Jitter during continuous scientific and industrial laser operation environments.
Our fiber lasers are made of durable components and thermal management system to ensure constant output and long-term performance. The optimized architecture also supports High Spectral Stability during extended operation in demanding industrial and research applications.
Individual laser systems are carefully aligned and tested to maintain stable beam quality and stable spectral performance. This approach improves High Peak Power Laser efficiency and precision during advanced photonics and material processing applications.
Yes, ultrafast laser system are applied extensively in photonics research, enabling the development of new and advanced optical technologies and experimental applications. The systems also support Time-Resolved Spectroscopy applications requiring accurate pulse timing and stable optical performance.
Yes, these systems are great for Precision Micromachining or other high accuracy material processing operations due to their short pulse duration and controlled energy delivery. Their minimal thermal impact helps improve material quality during high-speed industrial manufacturing and precision processing applications.
The series is designed to be a Research Grade Fiber Laser system, ensuring repeatable and reliable operation for advanced scientific investigations. Its robust laser architecture supports stable operation across complex spectroscopy and advanced photonics research environments consistently. This reliability makes both Femtosecond fiber laser and Picosecond fiber laser systems suitable for continuous laboratory applications.
Optimized laser architecture for High Spectral Stability for long-term research and industrial processes. This stability improves repeatability and supports precision analytical measurements during continuous operation and long-duration testing procedures.
Power Your Research with Ultrafast Laser Precision
Looking for a trustworthy ultrafast fiber laser system which can support your research work and industrial needs? Solid Laser delivers high-stability systems designed for precision, performance, and long-term reliability.