1064 nm High Power Polarization Insensitive Isolator (HI Series)
Description
The 1064 nm High Power Polarization Insensitive Isolator embodies cutting-edge optical engineering designed to enhance the efficiency and reliability of high-power laser systems. This advanced device significantly reduces insertion loss, allowing for a cleaner and more powerful signal transmission. With its high isolation capabilities, it effectively minimizes signal degradation by preventing back reflections and scattered light from affecting the laser's performance.
Crafted to withstand high optical power, the isolator ensures consistent operation without compromise, handling up to 2 watts of average optical power seamlessly. The design prioritizes environmental stability and reliability, making it exceptionally well-suited for challenging conditions often encountered in industrial and laboratory settings.
Moreover, the isolator features a high return loss, which is crucial for reducing signal loss and enhancing the quality of the laser output. This makes it an indispensable tool in applications where precision and efficiency are paramount. Its polarization insensitivity is a key advantage, promoting uniform performance across all polarization states, thus providing flexibility and reliability in various optical setups.
Ideal for integration into fiber laser systems and sophisticated instrumentation, this isolator is engineered to meet the rigorous demands of modern optical applications. Whether it's being deployed in research facilities, manufacturing plants, or high-tech industries, the 1064 nm isolator ensures optimal performance and durability, securing its role as a critical component in advancing optical technology.
1064 nm High Power Polarization Insensitive Isolator (HI Series)
Specifications |
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|---|---|
| Type Of The Device: | Isolator |
| Operating Wavelength: | 1064nm nm |
| Max Power: | w W |
| Min Isolation: | 28 dB |
| Center Wavelength (λc): | 1064 nm |
| Min. Isolation, λc, 23 ℃, All Polarization States: | 28 dB |
| Max. Average Optical Power: | 2 W |
| Max. Peak Power For Ns Pulse: | 10 kW |
Features
- Optimized Wavelength Performance: Specifically engineered for a central wavelength of 1064 nm.
- High Isolation: Achieves typical peak isolation of 35 dB, ensuring minimal signal degradation.
- Superior Insertion Loss Control: Maintains a typical insertion loss as low as 1.7 dB, enhancing overall system efficiency.
- High Power Handling: Capable of managing up to 2 watts of optical power, suitable for high-power applications.
- Excellent Return Loss: Features a minimum return loss of 50 dB, optimizing system performance.
- Low Polarization Dependency: With a maximum polarization dependent loss of just 0.2 dB, it supports uniform performance across all polarization states.
Applications
Ideal for use in high-end fiber lasers and precision instrumentation where reliability and performance are critical.
Enhanced Durability and Reliability: Designed to withstand rigorous operational demands, ensuring long-term performance and stability.
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How to order?
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Ships from:
China
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Sold by:
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On FindLight:
since 2024
Frequently Asked Questions
It is a device designed to reduce insertion loss and enhance signal isolation in high-power laser systems, particularly at 1064 nm wavelength.
It minimizes back reflections and scattered light, significantly reducing signal degradation and enhancing the overall quality of the laser output.
Key features include low insertion loss, high isolation, high power handling, high return loss, and excellent environmental stability.
It is used in fiber laser systems and precision instrumentation within industrial, research, and high-tech environments.
Its design ensures uniform performance across all polarization states, making it versatile for various optical setups.
Yes, it is capable of handling up to 2 watts of average optical power and 10 kW of peak power for nanosecond pulses.
The typical insertion loss at 23 °C is around 1.7 dB, ensuring efficient signal transmission.
The isolator can be customized in terms of fiber length, type, connector type, and jacket, catering to specific application requirements.
It is designed with high return loss and robust construction to ensure reliable performance under varying environmental conditions.
A high return loss minimizes signal leakage and enhances the laser output quality, which is crucial for high precision applications.