500W Fiber to Free Space Isolator
Description
Engineered for excellence in high-power applications, the High Power Fiber to Free Space Isolator (HPFSI) sets a new standard for industrial pulse fiber lasers. This state-of-the-art isolator is capable of managing an impressive 500W of average laser power, making it an essential component for any high-demand laser system. Priced competitively, the HPFSI offers exceptional value without compromising on performance.
What sets this isolator apart are its groundbreaking SteadiBeam™ and SeasonBeam™ technologies. These patented innovations ensure unparalleled beam quality and consistency. SteadiBeam™ technology is designed to eliminate thermal lensing effects, which are common in high-power laser operations and can degrade beam quality. This means the laser maintains a steady, focused output no matter the power level or environmental conditions.
Similarly, SeasonBeam™ technology contributes to temperature insensitive isolation. This feature guarantees high isolation from external temperature fluctuations, ensuring the laser’s output remains stable and precise throughout its operation. These technologies make the HPFSI not just a tool, but a reliable foundation for any high-powered laser application, ensuring optimal performance and durability.
500W Fiber to Free Space Isolator
Specifications |
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|---|---|
| Type Of The Device: | Isolator |
| Operating Wavelength: | 1064 nm |
| Max Power: | 500 W |
| Min Isolation: | 20 dB |
| Operating Wavelength (λc): | 1064 ± 30 nm |
| Typ. Isolation At 23 ℃, At λc: | 38 dB |
| Min. Isolation At 23 ℃, At λc: | 30 dB |
| Min. Isolation At All Temperature, At λc: | 20 dB |
| Nominal Output Beam Diameter (1/e2 ): | 2.0 ± 0.2 mm |
| Max. Average Optical Power: | 500 W |
| Max. Peak Power For Ns Pulse: | 50 kW |
Features
- High Power Handling: Capable of supporting up to 500W average laser power for robust, intensive applications.
- Advanced Technologies: Integrated with SteadiBeam™ and SeasonBeam™ for consistent, high-quality beam performance free from thermal lensing and sensitive to temperature variations.
- Cost-Effective: Offers superior performance at a competitive price, providing excellent value for industrial applications.
Ideal for sectors demanding high precision and reliability, such as manufacturing, medical technology, and scientific research, the HPFSI is more than just an isolator—it's a pivotal component in leading-edge laser systems.
Applications
- Laser Cutting and Welding: Used in industrial manufacturing processes where precise and stable laser output is critical for cutting and welding metals and other materials.
- Medical Lasers: Supports medical laser systems used in surgical procedures and dermatological treatments, ensuring consistent power delivery for safe and effective results.
- Research and Development: Utilized in scientific labs for experiments requiring high power laser applications, such as spectroscopy and materials research.
- Telecommunications: Enhances the performance of laser systems in fiber optic communications, ensuring stable and isolated laser output for reliable data transmission.
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Ships from:
China
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Sold by:
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On FindLight:
since 2024
Frequently Asked Questions
A High Power Fiber to Free Space Isolator (HPFSI) is a device designed to isolate a laser beam in high-power applications, ensuring that back reflections do not affect the laser source. It is particularly useful in systems requiring stable and high-quality beam output.
The HPFSI enhances laser system performance by maintaining consistent beam quality, preventing thermal lensing, and ensuring high isolation from environmental temperature fluctuations. This results in a more stable and precise laser output.
The HPFSI integrates patented SteadiBeam™ and SeasonBeam™ technologies. SteadiBeam™ prevents thermal lensing effects, while SeasonBeam™ provides temperature insensitive high isolation, crucial for maintaining beam quality under varying conditions.
Yes, the HPFSI is designed to handle up to 500 watts of average optical power, making it suitable for a variety of high-power applications in industrial, medical, and scientific fields.
Typical applications include laser cutting and welding in manufacturing, medical laser systems for surgeries, scientific research involving high-power lasers, and enhancing fiber optic communications.
The HPFSI's ability to provide stable and high-quality laser outputs makes it ideal for precise applications like medical surgeries and industrial manufacturing, where precision and reliability are paramount.
In research and development, the HPFSI contributes by providing a stable platform for experiments and development of new technologies, especially in fields requiring precise control over high-power lasers.
The HPFSI operates efficiently within a temperature range of +10 to +50°C and can be stored at temperatures from -10 to +60°C. It is designed to be robust and reliable under diverse environmental conditions.