ORAFOL Fresnel Beamsplitter PR 757
Description
The Fresnel Beamsplitter PR 757 by ORAFOL Fresnel Optics GmbH is a high-performance optical component designed to split incoming light beams into two distinct paths with maximum efficiency. Utilizing advanced Fresnel optics, this beamsplitter minimizes reflection losses while offering high transmission rates. Its lightweight and compact design make it ideal for integration into various optical systems, from laser applications to optical measurement and display technologies.
Manufactured from durable, high-quality optical polymers, the PR 757 delivers excellent environmental stability, making it suitable for use in both controlled environments and harsher conditions. Its ability to handle a wide range of wavelengths and provide precise light beam division ensures that it meets the needs of professionals in industries such as telecommunications, medical instrumentation, and optical communication systems. Whether used for reflection control or beam separation, the PR 757 guarantees consistent performance and reliable results in complex optical systems.
ORAFOL Fresnel Beamsplitter PR 757
Specifications |
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|---|---|
| Prism Angle: | 45 deg |
| Separation Angle: | 51 deg |
| Facet Spacing: | 1.106 mm |
| Clear Aperture (X): | 256.4 mm |
| Clear Aperture (Y): | 206.9 mm |
| Prism Length: | 256.4 mm |
| Thickness: | 1.8 mm |
Features
- Innovative Fresnel Beam Splitter Design
- Linear Structure with Opposite Angles
- Two Effective Flanks for Optimal Beam Division
- Enables Controlled Division Angle
- Lightweight and Space-Efficient Construction
Applications
- Optical Systems in Imaging and Projection
- Laser Systems and Research Applications
- Photonic Devices
- Light Measurement Instruments
- Scientific and Industrial Optics
For pricing, technical or any other questions please contact the supplier
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- No markups, no fees
- Direct contact with supplier
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How to order?
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Ships from:
Germany
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Sold by:
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On FindLight:
since 2020
Frequently Asked Questions
Designed to split incoming light beams into two distinct paths efficiently.
Manufactured from durable optical polymers to ensure long-lasting performance.
Achieves up to 95% transmission efficiency, minimizing light loss.
Yes, it is available for various wavelength specifications based on application needs.
Operates effectively between -40°C and +85°C, suitable for various environments.
Used in laser systems, optical communication, display technologies, and measurement instruments.
Reduces material thickness while maintaining precision optical performance.
Yes, it is designed to minimize reflection losses, enhancing overall system efficiency.
Beneficial in telecommunications, medical instrumentation, and optical communication systems.
Yes, it provides excellent environmental stability, making it suitable for harsh conditions.