1064 nm High Power Polarization Maintaining Isolator (HPMI Series)

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Specifications

Type Of The Device: Isolator
Operating Wavelength: 1064 nm
Max Power: 1020 W
Min Isolation: 25 dB
Center Wavelength (λc): 1064 nm
Operating Wavelength Range: λc ± 10 nm
Min. Isolation, λc, 23 ℃: 25 dB
Min. Extinction Ratio: 20 dB
Max. Average Optical Power: 10, 20 W
Max. Peak Power For Ns Pulse: 10 kW
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Features


  • Low Insertion Loss: Ensures minimal signal attenuation for optimal performance. Typical insertion loss of 0.8 dB and maximum insertion loss of 1 dB, allowing for high efficiency in optical systems.

  • High Isolation: Provides effective suppression of back reflections and stray signals. Typical peak isolation of 30 dB and minimum isolation of 25 dB at 23 ℃, ensuring signal integrity and stability.

  • High Return Loss: Reduces back reflections to maintain high signal quality and prevent feedback that could damage components. Minimum return loss of 45 dB for both input and output ports, enhancing overall system performance.

  • High Extinction Ratio: Maintains stable polarization states for polarization-sensitive applications. Minimum extinction ratio of 20 dB, critical for applications requiring precise polarization control.

  • High Power Handling Capability: Suitable for high-power applications with an average optical power handling of up to 10 W. Can handle peak power for nanosecond pulses up to 5 kW, making it ideal for high-intensity laser systems.

  • Environmental Stability: Operates reliably over a wide temperature range, ensuring consistent performance in varying conditions. Operating temperature range of +10 to +50 ℃ and storage temperature range of 0 to +60 ℃.

  • Versatile Package Types: Available in multiple package types (Type A and Type B) to accommodate different installation requirements and system designs. Customizable options for connector types, fiber jackets, and fiber lengths to suit specific application needs.

  • Robust Construction: Built with high-quality materials for durability and long-term reliability. Designed to withstand mechanical stresses with a maximum tensile load of 5 N.

Applications


  • Fiber Laser Systems: Enhances stability and performance in industrial fiber laser applications such as cutting, welding, and material processing. Supports high-precision laser experiments in research and development settings, ensuring consistent and reliable results.

  • Optical Amplifiers: Maintains signal integrity in telecommunication networks and data transmission systems. Ensures low noise and high gain in amplification processes, vital for long-distance and high-capacity communication links.

  • Test and Measurement Instruments: Provides reliable performance for optical testing and measurement devices, including optical spectrum analyzers and power meters. Ensures precision and accuracy in laboratory and industrial test environments, essential for quality control and research applications.

  • Research and Development: Ideal for experimental setups requiring high power handling and precise polarization control. Supports a wide range of research applications, from fundamental studies to applied sciences, enabling advancements in optical technologies.

  • Telecommunication Systems: Enhances signal quality and reduces degradation in long-distance fiber optic communication. Ensures robust and efficient network performance, crucial for modern high-speed internet and communication services.

  • Medical and Biomedical Applications: Suitable for high-precision medical laser systems used in surgeries and diagnostics. Enhances the reliability and performance of laser-based medical treatments, contributing to better patient outcomes and advanced medical procedures.