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Two Wedged Prisms: Made from birefringent materials with a 45° offset.
Variable Path Lengths: The wedges cause varying path lengths through each prism, resulting in net birefringence and a final polarization state dependent on spatial variations.
Randomized Polarization: Converts polarized light into a pseudo-polarized state, ideal for beams of large diameter.
Crystal Quartz Construction: Durable and reliable material with excellent optical properties.
Applications: Optical Systems, Scientific Instruments, Laser Systems, etc.
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Air-Spaced Architecture: The polarizers are constructed with an air-gap structure, free from adhesive, allowing them to handle high power levels of greater than 500 MW/cm² at 1064 nm, 20 ns, 20 Hz.
High Precision: The polarizers are made with materials that pass laser scattering tests, ensuring high precision and an exceptional extinction ratio ranging from 20,000:1 to 200,000:1.
Housing: Available in black anodized aluminum, with options for rectangular or circular designs. Black glass can be used to absorb dumped light, and escape ports can be configured to prevent power absorption or utilize rejected ordinary light.
Applications: Laser Physics and Research, Industrial Applications, Scientific Instrumentation, etc.
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Air-Spaced Design: The prisms are joined with an air-gap construction, eliminating adhesive and enhancing the polarizer’s durability.
Optical Axis Alignment: The optical axes of the prisms are aligned to ensure that the extraordinary component is transmitted while the ordinary component is reflected.
No Escape Port: Unlike the Glan Laser Polarizer, the Glan Taylor Polarizer does not include an escape port, making it suitable for lower power applications.
Applications: Optical research and testing, Laser technology, Optical communications, Optical Imaging and Detection, etc.
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Large Acceptance Angle: Due to their large aspect ratio, Glan Thompson Optical Polarizers have a large acceptance angle and are suitable for both divergent and focused light sources.
High polarization purity: Capable of providing polarization purity up to 20,000:1.
Wide spectral range: Suitable for applications in a wide spectral range.
Durability: Able to perform well in medium-power applications due to its design and materials.
Applications: Optical experiments, Laser Systems, Optical imaging, Spectroscopy, etc.
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Material: Made from bulk crystalline quartz.
Orientation: C-cut quartz crystals ensure no stringent alignment is needed between the rotator and the incident beam; only perpendicular incidence is required.
Rotation Angles: Available in fixed rotation angles of 45° or 90°.
Wavelength Specific: Designed for narrow laser wavelengths, including 532 nm, 633 nm, 800 nm, 1030 nm, and 1064 nm.
Temperature Sensitivity: Minimal sensitivity to ambient temperature changes.
Anti-Reflection Coatings: Applied to enhance transmission performance.
Applications: Laser Systems, Optical Instruments, Scientific Research, Industrial Processes, etc.
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Enhanced Polarization Control: The Rochon Prism provides precise control over the polarization of light, allowing for accurate adjustments and optimizations in optical systems.
Wide Spectral Range: Its ability to handle a broad spectrum of light makes it suitable for use in a variety of applications, from visible to infrared wavelengths.
High Efficiency: The prism’s design ensures minimal loss of light during polarization separation, resulting in high overall system efficiency.
Durability and Stability: Manufactured with high-quality materials, the Rochon Prism is built to withstand the rigors of daily use and maintain its performance over time.
Easy Integration: The prism’s compact size and standard mounting options make it easy to integrate into existing optical systems or use as a standalone component.
Applications: Superior Performance, High-Quality Materials, Versatile Application, Compact Design, Easy to Use, etc.
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High Polarization Purity: Wollaston Prism is capable of efficiently separating incident light into two orthogonally polarized beams of light (commonly referred to as o-light and e-light) with extremely high polarization purity. This means that the polarization state of the outgoing light is very pure and contains almost no cross-polarization components.
Wide spectral range: Due to its material properties, Wollaston Prism can work over a wide spectral range, covering different wavelengths from ultraviolet to infrared. This makes it suitable for a wide range of optical systems and applications.
High transmittance:The well-designed Wollaston Prism has a high transmittance that minimizes the loss of light as it passes through the prism and improves the efficiency of light utilization.
Structurally stable: Wollaston Prism is usually formed by bonding two orthogonal birefringence crystal prisms, which are relatively stable and able to maintain stable performance in a variety of environments.
Adjustable angle: The Wollaston Prism available in the market has different divergence angles of the outgoing light, and users can choose the appropriate divergence angle according to their actual needs to meet different application needs.
Applications: Spectral analysis, Laser Technology, Optical Measurements, Microscopy Techniques, Other areas, etc.
