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AG glass Windows is used on-screen to reduce sunlight/light reflection. The surface is etched by chemical to specified gloss, roughness and haze. A finished window might need post-treatment such as silk-screen printing, 3M double sides adhesive, heat tempered, coating. Please contact us for more information, supports or free samples.
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Barium Fluoride (BaF2) is the fastest known scintillator material; it has characteristics comparable to calcium fluoride but is more resistant to high-energy radiation. It is, however, more susceptible to water damage. Features
- High-Energy Radiation Resistant
- Transmission is excellent between 200nm - 12μm.
- Provide high transmission without the use of AR coatings.
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Brewster Windows are windows that are meant to be used at Brewster's angle (usually uncoated). This is the angle at which only incident p-polarized light has 0% transmission loss. Instead of exterior mirrors, a Brewster window is an uncoated substrate positioned at Brewster's angle within a laser. This substrate works as a polarizer, allowing p-polarized light to enter and exit the window without reflection losses while reflecting s-polarized light. Features
- Perfect for Laser Cavities.
- A substrate with UV Fused Silica.
- Without Reflection Losses, P-Polarized Light is Transmitted.
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Calcium Fluoride (CaF2) Windows have a high damage threshold and low absorption and are transparent from 180 nm to 8µm. It is a great choice for FTIR analysis, excimer laser systems, spectroscopic windows, and thermal imaging systems. Features:
- <1 arc-minute parallelism
- Ideally suited for excimer laser applications.
- Transparent in UV, visible, and infrared light.
- A low absorption rate and a high damage threshold
- In comparison to other IR materials, it has a low chromatic aberration.
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Fused Silica Windows are an excellent choice for high-precision, clear transmittance applications. They have low bulk scatter and autofluorescence, as well as incredibly high surface quality and parallelism. Many sectors use fused silica windows, including aircraft, astronomy, military and commercial avionics, medical and scientific instruments, academics and research, and industrial uses. They're an excellent choice for laser applications, spectroscopy, photolithography, vacuum windows, and a variety of other uses. Discover premium Fused Silica Windows from z optics . 0.1 angstrom roughness can be achieved with super polishing.
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A Germanium Window is an optical window that is opaque to UV and visible light but transmits a wide range of infrared radiation. Because of its low dispersion, it exhibits little chromatic aberration. Germanium is also a material commonly for IR windows and lenses in thermal imaging systems. Features -
- Excellent for near-infrared and imaging applications.
- Anti-reflection coating with a wavelength range of 8 to 12 µm.
- This Window is ideal for low-power CO2 laser applications.
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High-transmittance optical K9 glass windows are ideal for optical laboratory equipment. optical windows are transparent, flat, plane-parallel optical windows meant to shield sensors and other electronic devices from environmental conditions. Considerations for Optical Window material selection include transmission qualities, scattering, strength, and resistance to specific conditions. Their use should have no effect on a system's magnification. Optical Windows may be optically polished and include a light-diffusing device to regulate illumination.To achieve the best transmission performance for a specific wavelength, AR coatings can be applied. A variety of materials, including quartz, IR crystals, UV fused silica, and optical glasses, are utilised to make the windows. Our optical windows have x-ray protection, UV light resistance, and far-infrared light transmission capabilities, among other qualities. Typically, optical windows are made of two flat, or Plano, polished surfaces that are optically transparent and meant to segregate, seal, or otherwise protect other components. The double-sided manufacturing technique produces superior parallelism and transmitted wavefront, making it perfect for visible windows in industrial and biomedical applications, as well as infrared windows in military/defense applications. When the original is in two physical settings, an optical window can protect it. And there is essentially little influence on visible light. Coating the surface of windows could increase transmittance; typically used coatings include antireflection coating (AR) and scratch-resistant coating (AS). Optical glass flat with coating can improve light penetration strength while also being waterproof, dustproof, and scratch-proof. Our k9 Windows are utilised by scientific and industrial companies in the medical, defence, instrumentation, laser, research, and imaging fields. Z-Optics provides a wide range of windows in a variety of materials and designs. Special size and material optical windows are also available upon request. Furthermore, we offer single layer or multilayer anti-reflective coating on optical windows. Our optical windows' general parameters are listed in the catalogue below, and you are invited to customise the windows with your own designs or drawings.
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The mechanical properties of Sapphire include its great strength, thermal stability, wear resistance, and chemical inertness. As a result, a Sapphire Window outperforms other optical materials in severe conditions, acting as a shield between the elements. In optical and mechanical applications, sapphire windows are often used. Features
- Chemical resistance due to its high surface hardness.
- Transmits light at wavelengths ranging from ultraviolet to near-infrared.
- Thinner and stronger than standard glass windows.
- Available with anti-reflection coatings ranging from 400 to 5000nm
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Silicon Windows are suitable for infrared applications due to their high transmittance between 1.2 and 7.0 μm. Silicon has a low density of 2.329 g/cm3, making it an excellent material for weight-sensitive applications. Features -
- Transmission range of 1.2 - 7μm.
- Available Uncoated or AR Coated for 3 - 5μm.
- Ideal for applications requiring low weight.
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D263T eco is a clear borosilicate glass that has high chemical resistance. It is available in a variety of thicknesses ranging from 0.05 mm to 1.1 mm. Applications include use as cover glass, display glass, as coating or printed electronics substrate and as a replacement for plastic. In consumer electronics like LED chips, customers need ultra-low-cost windows in very big volumes. Normally Scott D263T is used as substrate. It's coated and diced to the desired size by blade or laser. Z-Optics deposits film on a big sheet of D263T and cut into the desired size upon requests of the customer by laser. Laser cutting possesses advantages of flexibility on shape, high precision and low cost.
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