| Customization: | Available |
|---|---|
| Center Wavelength: | 1064 Nm |
| Typ. Peak Isolation: | 38 36 |
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The 1064 nm Polarization Maintaining Isolator is indeed a crucial component in fiber optic systems that require the maintenance of polarization integrity. Here's a summary of its key features and why it's ideal for certain applications:
Low Insertion Loss: This ensures that the signal degradation is minimal when light passes through the isolator, which is vital for preserving the strength and quality of the optical signal.
High Isolation: With high isolation levels, typically starting from 35 dB and going up to 55 dB, this isolator effectively prevents back reflections from reaching the light source, thus protecting sensitive components like lasers from potential damage and ensuring signal integrity.
High Return Loss: A high return loss, usually above 50 dB, indicates that the isolator reflects very little of the incident light back towards the source, which helps in reducing noise and interference within the system.
High Extinction Ratio: This is a measure of how well the isolator can block unwanted polarizations while allowing the desired polarization to pass through. An extinction ratio of 20 dB or higher ensures that the isolation is effective across different polarization states.
Excellent Environmental Stability and Reliability: The isolator is designed to perform consistently across a wide range of temperatures, typically from -40°C to +85°C for storage and -5°C to +50°C for operation, making it suitable for various environmental conditions.
Ideal for Sensitive Applications: The combination of these features makes the 1064 nm Polarization Maintaining Isolator perfect for applications in amplifiers, fiber lasers, and test instruments where maintaining the state of polarization is critical for performance and accuracy.
This isolator plays a significant role in high-performance fiber optic systems by ensuring that light is transmitted in the desired polarization state without significant loss, reflection, or distortion, thus enhancing the overall efficiency and reliability of the system.
Specifications
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