Product Brief 
Sales & Technical Support
Features
- Cost-Effective
- High Peak Power
- Robust Design
Applications
- Terahertz Generation
- Two-Photon Microscopy
- Two-Photon Polymerization
Resources
- Product Brief Product Brief
- Webinar – Eleuthra & Optica
- Case Study – Enhancing Real-Time Histopathology with Eleuthra Case Study – Enhancing Real-Time Histopathology with Eleuthra
- Case study – THz Research Case study – THz Research
- App note – THz Gen App note – THz Gen
- App note – MPM App note – MPM
- Blog – Enhancing 2P Microscopy Blog – Enhancing 2P Microscopy
- Blog – Q&A Blog – Q&A
- Blog – MPM Blog – MPM
Michel Bégin
Product Line Manager
The VINCI-1064 Femtosecond Fiber Laser features a simple and robust SESAM-free oscillator architecture. This design ensures exceptional cost-effectiveness and reliability, making it the most ideal solution for applications such as terahertz signal generation and two-photon microscopy.
As part of the VINCI series of ultrafast fiber lasers, this femtosecond laser operates at a central emission wavelength of 1064 nm. It offers a unique combination of short pulse duration (typically 50 fs) and high peak power approaching 1 MW for high conversion efficiency.
Whether for scientific research or biomedical use, the VINCI-1064 fs Fiber Laser delivers unparalleled performance in the femtosecond laser category.
Key Features and Benefits
Cost-Effective
Accelerates adoption and enables large-scale deployment of emerging applications, including THz spectroscopy and two-photon microscopy.
High Peak Power
Delivers exceptional conversion efficiency in nonlinear processes such as two-photon fluorescence and THz generation.
Robust Design
The SESAM-free architecture with a low component count ensures unmatched robustness and long-term reliability.
Comparative Scorecards
TeraHertz Applications
Explore how our ultrashort pulse laser, the VINCI-1064, outperforms leading alternatives in high peak power, short pulse duration, broad emission spectrum, and overall system value for Terahertz-based systems.
| VINCI-1064 | Competitor A | Competitor B | Competitor C | Competitor D | |
|---|---|---|---|---|---|
| High Peak Power | Excellent | Very Good | Fair | Fair | Excellent |
| Short Pulse Duration | Excellent | Fair | Fair | Poor | Excellent |
| Broad Emission Spectrum | Excellent | Fair | Fair | Poor | Excellent |
| Pulse Repetition Rate | Very Good | Very Good | Very Good | Very Good | Good |
| Brand/Reputation | Good | Good | Good | Very Good | Good |
| Reliability | Very Good | Very Good | Good | Good | Good |
| Service/Customer Support | Excellent | Very Good | Good | Poor | Good |
| Price | $ | $$$ | $$ | $$$ | $$$ |
| Overall Price-to-Performance Ratio | Excellent | Good | Good | Fair | Good |
Multiphoton Microscopy Applications
Discover the VINCI-1064’s competitive edge in high peak power and cost-efficiency for Multiphoton Microscopy.
| VINCI-1064 | Competitor A | Competitor B | Competitor C | |
|---|---|---|---|---|
| High Peak Power | Excellent | Very Good | Fair | Fair |
| Pulse Duration | Very Good | Very Good | Very Good | Very Good |
| Pulse Repetition Rate | Very Good | Very Good | Very Good | Very Good |
| Pulse Stability | Very Good | Very Good | Very Good | Good |
| Brand/Reputation | Good | Good | Good | Very Good |
| Reliability | Very Good | Very Good | Good | Good |
| Service/Customer Support | Excellent | Very Good | Good | Good |
| Price | $ | $$$ | $$ | $$$ |
| Overall Price-to-Performance Ratio | Excellent | Good | Good | Fair |
| Product Details | Specifications |
|---|---|
| Center Wavelength | 1064 nm |
| Average Power | 2 W |
| Pulse Duration | < 60 fs |
| Pulse Energy | > 50 nJ |
| Repetition Rate | 40 MHz |
| Beam Quality | < 1.2 |