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Beamsplitters are used for separating or merging light beams. The two common forms Z-OPTICS LIMITED offers are Plates and cubes. Cubes are a simple, safe shape for applications with low power rates. The efficiency of beamsplitters depends largely on the parameters for the coating. The type, coating, transmission range and damage threshold should be taken into consideration when choosing beamsplitters.
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Beamsplitters are used for separating or merging light beams. The two common forms Z-OPTICS LIMITED offers are Plates and cubes. Cubes are a simple, safe shape for applications with low power rates. The efficiency of beamsplitters depends largely on the parameters for the coating. The type, coating, transmission range and damage threshold should be taken into consideration when choosing beamsplitters.
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Beamsplitters are used for separating or merging light beams. The two common forms Z-OPTICS LIMITED offers are Plates and cubes. Cubes are a simple, safe shape for applications with low power rates. The efficiency of beamsplitters depends largely on the parameters for the coating. The type, coating, transmission range and damage threshold should be taken into consideration when choosing beamsplitters.
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The ZnSe (Zinc Selenide) Wedge Beamsplitter is a optical component that has gained prominence in various scientific, industrial, and laser-based applications. This is designed to split incident light into two separate beams, each with a specific ratio of reflected and transmitted light, making it an essential tool for precise light control in optical systems. The wedge-shaped design of this beamsplitter introduces a gradual change in thickness across its surface, allowing for precise control of the splitting ratio. This feature is particularly advantageous in interferometry and laser applications where controlling the phase and power of optical beams is crucial. The ZnSe Wedge Beamsplitter's accuracy and consistency empower researchers and engineers to achieve the level of precision required for their experiments and projects.
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The Caf2 (Calcium Fluoride) Wedge Beamsplitter is a cutting-edge optical component that has garnered significant attention across various scientific, industrial, and laser-based applications. This is meticulously designed to bifurcate incoming light into two separate beams, each with a predetermined ratio of reflected and transmitted light, making it an indispensable tool for precision light management within optical systems. The brilliance of the Caf2 Wedge Beamsplitter lies in its utilization of high-quality Calcium Fluoride, a material renowned for its exceptional optical properties. Calcium Fluoride is prized for its broad spectral transmission range, extending from the ultraviolet (UV) to the infrared (IR) regions, and its low refractive index. These attributes make it a superior choice for applications where optimal spectral transparency is essential. The wedge-shaped configuration of this beamsplitter introduces a gradual change in thickness across its surface, enabling precise control of the splitting ratio. This feature is particularly advantageous in applications such as interferometry and laser systems, where maintaining the phase and power of optical beams is paramount. The Caf2 Wedge Beamsplitter's precision and consistency empower researchers and engineers to achieve the level of accuracy demanded by their experiments and projects.
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Broadband Non-Polarizing Cube Beamsplitters are made up of a pair of high precision right angle prisms cemented together by a metallic dielectric coating on one of the prisms’ hypotenuse. Because of the metallic dielectric hybrid coating's low polarization dependence, the transmission and reflection of S- and P-polarization states can be within 10% of each other. These beamsplitters are spectrally flat across their specified wavelength ranges, which reduces the effects of changes in angle of incidence or converging/diverging beams. Metallic dielectric hybrid coating has <10% absorption, so don’t use it in high power laser.
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The Metallic Coated Float Glass Flat Mirror, an optical component from Z-Optics, is designed for superior reflectivity and durability, this mirror is engineered to meet the exacting standards of various industries. At the heart of this optical marvel is the use of high-quality float glass, providing exceptional flatness and surface quality. The metallic coating, meticulously applied, ensures outstanding reflectivity across a broad spectrum of wavelengths. This combination of materials results in a mirror that not only delivers reliable performance but also withstands the rigors of diverse applications. The flat mirror's design is optimized for precision, making it an ideal choice for beam steering, alignment, and optical setups where accurate reflection is paramount. Whether employed in scientific research, laser systems, or imaging devices, this optical component plays a crucial role in maintaining the integrity of optical pathway
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The Metallic Coated H-K9L Flat Mirror by Z-Optics stands as an exemplar of precision optics. Utilizing high-quality H-K9L glass, renowned for its excellent transmission in the visible spectrum, this flat mirror ensures optimal performance for a variety of applications. The metallic coating, applied with precision, enhances reflectivity across a broad range of wavelengths, making it a versatile choice for scientific, industrial, and research endeavors. The flat mirror's design is characterized by its commitment to precision, making it an ideal solution for applications such as beam steering, imaging, and laser systems. Z-Optics' expertise is evident in the mirror's ability to deliver consistent and reliable performance, meeting the stringent demands of diverse optical setups.
