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  • Infrared Lenses Infrared Lenses Hyperion regularly work with IR materials that spans across almost the entire IR spectrum. We use laser-based edging device to control MWIR and LWIR lenses' decenter deviation, and test on reflective centering station to fulfill extremely precise tasks.
  • Windows Windows Our precision optical windows range from UV to VIS, NIR, SWIR further MWIR and LWIR applications. We offer a variety of substrates, such as Germanium (Ge), Silicon (Si), N-BK7, UV Fused Silica, Zinc Selenide (ZnSe), or Multiple anti-reflection coating options are available for the Ultraviolet (UV), Visible, or Infrared (IR). Please also refer to our IR optics category for more information.
  • Optical Lens Coating Technology and Development Optical Lens Coating Technology and Development In daily use, the friction with dust or grit (silicon oxide) will cause the inorganic or organic materials made glasses lens scratched the surface. Compared with the glass, the hardness of organic mat...
  • Laser Optics Laser Optics Protect scan lenses from backsplatter and other workplace hazards, Hyperion Optics offers protective windows -- also known as debris windows -- that are either included as the overall scan lens assembly part, or sold separately. These plano-plano windows are available in both ZnSe and Ge materials and also supplied mounted or unmounted.
  • DNA: will it be the next Hot Optical Material? DNA: will it be the next Hot Optical Material? The backgroundAs the silicon glass becomes the base material for making optical fiber, silicon has become the main material in the field of inorganic photoelectric equipment. Not only is it easy to ge...
  • Application prospect of nanocrystalline materials Application prospect of nanocrystalline materials Nanocrystalline material is a crystal glass with at least one dimension in nanometer scale in the three-dimensional space scale. Its grain size is about 1-250 nanometers. A notable feature of this mat...
  • Research and Analysis of Silicon Carbide Lens Research and Analysis of Silicon Carbide Lens Silicon carbide material is the ideal material for silicon carbide lens with various high performance and special environmental application because of its low thermal expansion, high strength reflecti...
  • Differentiation between Doublet Lens and Ordinary Lens Differentiation between Doublet Lens and Ordinary Lens Doublet lenses are the most commonly used optical materials with mature manufacturing technology and complete varieties. Generally, doublet lenses can transmit colored light with wavelengths ranging f...
  • Technology and Application of MWIR Lens Technology and Application of MWIR Lens 1. The use of MWIR lensWith the development of infrared detector technology and application requirements, the use of MWIR lenses is also increasing. Due to the refrigerating mechanism used by the medi...
  • Understanding the Methods for Cleaning Singlet Lens Understanding the Methods for Cleaning Singlet Lens We all know that Singlet Lens is very important for SLR cameras, and the imaging quality of photos is determined by the lens. When we go out to travel, we always take our SLR camera with us. Over time...
  • Understanding and Characteristics of Sapphire Ball Lens Understanding and Characteristics of Sapphire Ball Lens Sapphire optical components can be used for various applications that require high durability or a wide spectral range, including semiconductors, FTIR spectroscopy or FLIR imaging. Sapphire glass is t...
  • Different Types of Materials Used in Manufacturing Half-Ball Lenses Different Types of Materials Used in Manufacturing Half-Ball Lenses When it comes to key components in advanced optics applications, half-ball lenses have swiftly gained recognition for their unique shape and optical properties. These lenses play a crucial role in var...
  • Encyclopedic Knowledge Concerning Collimator Lens Encyclopedic Knowledge Concerning Collimator Lens Definition of Collimator LensA Collimator Lens is a curved optical lens that can turn light from a certain light source (for instance, from every point in an aperture or the light source itself) into ...