CSRAYZER High Power Free Space Faraday Optical Isolator - 1030nm, 2.8mm Clear Aperture, Model: HIO-2.8-1030-HP-81x52x38-XA
Description
CSRayzer offers a versatile range of free space rotators and isolators, also known as Faraday rotators and isolators, which are devices designed to alter the polarization state of light, utilizing the Faraday magneto-optical effect.
Our products are available with various clear aperture sizes, including diameters of 3, 5, 6, 7, 8, and 10 mm, providing flexibility for diverse applications. The working wavelength of these devices can be customized to meet specific requirements, with typical operating wavelengths encompassing 800/920/1030/1064/1550 nm, showcasing wide adaptability.
Constructed with high-power resistant TGG crystals, our Faraday rotators and isolators boast an optical pulse damage threshold of up to 10 J/cm². Remarkably, the maximum clear aperture of our Faraday rotator and isolator range can reach 30 mm.
CSRAYZER High Power Free Space Faraday Optical Isolator - 1030nm, 2.8mm Clear Aperture, Model: HIO-2.8-1030-HP-81x52x38-XA
Specifications |
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|---|---|
| Type Of The Device: | Isolator |
| Operating Wavelength: | 1030 nm |
| Max Power: | 10 W |
| Min Isolation: | 30 dB |
| Transmission@λc: | ≥93 % |
| Damage Threshold: | 10 J/cm² |
| M² Degradation: | ≤10 % |
| Clear Aperture: | 2.8 mm |
| Operating Wavelength Range: | ±10 nm |
| Isolation At λC: | ≥30 dB |
| Operating Temperature: | 10 to 30 ℃ |
| Storage Temperature: | -20 to 70 ℃ |
Features
- High Extinction Ratio: Ensures that unwanted light is effectively filtered out, improving system performance.
- High Transmission: Guarantees optimal light passage through the device, enhancing efficiency.
- High Optical Power: Suits applications requiring high energy levels, expanding versatility.
- High Isolation: Protects against back reflections and maintains signal integrity.
- Clear Aperture up to 30mm: Provides a variety of options to accommodate different application needs
- Customizable Multi-Center Wavelengths: Offers flexibility for diverse requirements and use-cases.
Applications
Multi-Level Laser Amplifiers: Suitable for systems requiring amplification of laser signals at various levels.
Optical Parametric Oscillators: Ideal for processes necessitating the generation of tunable wavelengths via parametric amplification.
Seed Injection Lasers: Applicable for seeding amplifiers with initial laser signals to achieve desired characteristics.
Optical Switches: Apt for systems that require the routing of optical signals between different channels.
Optical Modulators: Useful in modulating light signals for controlling properties like amplitude, phase, and frequency.
Fiber Lasers: Compatible with systems utilizing fiber-based laser sources for various applications.
Polarization-Maintaining Fiber Components: Suitable for applications necessitating the preservation of the polarization state of light.
Free Space Communication: Ideal for communication systems that transmit information via free space using light.
Academic and Institutional Research: Provides a versatile tool for research endeavors in colleges, universities, and research institutes.
For pricing, technical or any other questions please contact the supplier
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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 2020
Frequently Asked Questions
The 1030nm High Power Free Space 2.8mm Faraday Optical Isolator is a device that changes the polarization state of light based on the Faraday magneto-optical effect.
The Faraday rotator and isolator is available with clear aperture sizes of 3, 5, 6, 7, 8, and 10 mm.
Yes, the working wavelength can be customized. Typical operation wavelengths include 800/920/1030/1064/1550 nm.
The maximum clear aperture of the Faraday rotator and isolator can be 30 mm.
Some applications for this product include multi-level laser amplifier, optical parametric oscillator seed injection, laser optical switch, optical modulator, fiber laser, polarization maintaining fiber component, free space communication, and research in colleges, universities, and institutes.