Showing all 8 results

  • Kingwin Optics Brewster Angle PrismsKingwin Optics Brewster Angle Prisms

    Brewster Angle Prisms

    Minimal Deviation: The apex angle of the Brewster Prism is specifically crafted such that p-polarized light incident at the Brewster’s angle passes through the prism in a direction parallel to its base, experiencing minimal deviation.

    Efficient Polarization Manipulation: By exploiting the Brewster angle, these prisms are optimized for efficient polarization manipulation, making them ideal for applications where surface reflection losses cannot be tolerated.

    Wavelength Selection: Brewster Prisms also possess the capability to select a single wavelength from a multi-wavelength laser, enhancing their versatility in various optical systems.

    Tuning Flexibility: The prisms can be tilted to achieve the desired tuning, providing additional control over the polarization and wavelength selection process.

    Applications: Polarimetric Instruments, Lasers, Polarization Mode Locking, Polarization-Based Spectroscopic Measurements, etc.

  • Kingwin Optics Corner Cube RetroreflectorKingwin Optics Corner Cube Retroreflector

    Corner Cube Retroreflector

    High-precision reflection: The retroreflector of the corner pyramid is able to return the incident rays almost perfectly in the original path through three total internal reflections inside, with extremely high reflection accuracy, and the beam deviation is usually very small (e.g. 180° ±30 arc seconds). This high-precision reflective property makes it excellent in applications where precise alignment and measurement are required.

    Angular Insensitivity: Unlike other types of reflectors, the reflective performance of the corner pyramid retroreflector is almost unaffected by the direction of incident light and the angle at which the prism is placed. This property allows it to maintain a stable reflection effect even in complex and changing environments.

    Durability: Corner cone retroreflectors are usually made of high-quality optical materials (such as UV grade fused silica, BK7 optical glass), which have good anti-wear, anti-corrosion and anti-aging properties. This allows it to maintain stable performance for long periods of time in harsh environments.

    Easy to install and commission: Corner pyramid retroreflectors are often designed with ease of installation and commissioning in mind. It enables precise alignment with simple operation and enables quick integration into the system.

    Applications: Laser Measurement & Positioning, Optical Communications, Robot Navigation and Obstacle Avoidance, Traffic Safety, Research & Teaching, etc.

  • Kingwin Optics Dove PrismsKingwin Optics Dove Prisms

    Dove Prisms

    Image Inversion and Rotation: Dove Prism is capable of inverting and rotating images, depending on the rotation angle of the prism relative to the incident light beam. This property makes it a versatile tool in optical systems requiring image manipulation.

    Retroreflection Capability: It can function as a retroreflector, where incident light is reflected back along the same path, but with a possible image rotation. This feature is useful in applications where precise beam alignment is crucial.

    Beam Steering: By rotating the prism, the propagation path of the light beam can be altered, allowing for dynamic beam steering in optical systems.

    Stable Performance: The solid construction of the Dove Prism ensures stable performance over time, making it suitable for long-term use in demanding applications.

    Compatibility with Various Coatings: Dove Prisms can be coated with various materials to enhance their optical properties, such as anti-reflection coatings or aluminization, depending on the specific application requirements.

    Reduced Weight and Internal Reflection: As a truncated right-angle prism, the removal of the pinnacle contributes to reduced weight and minimized internal reflection, improving overall efficiency.

    Applications: Astronomy, Interferometry, Optical Communication, Laser Systems, etc.

  • Kingwin Optics Equilateral PrismsKingwin Optics Equilateral Prisms

    Equilateral Prisms

    High Precision and Optical Performance:

    Equilateral Prisms offer precise light dispersion and reflection due to their high-quality polished surfaces.

    The equilateral design ensures optimal performance by maximizing dispersion while minimizing reflection losses.

    Versatility in Materials and Coatings:

    Available in a variety of optical materials such as H-K9L, BK7, F2, N-F2, N-SF11, CaF2, or ZnSe, allowing for customization based on specific application requirements.

    Can be coated with AR (Anti-Reflective), HR (High Reflective), or other specialized coatings to further enhance their optical properties.

    Efficient Light Manipulation:

    Effectively separate white light into its constituent colors, making them ideal for spectroscopic analysis and other optical applications.

    Minimize stray light and eliminate higher-order diffraction issues commonly associated with gratings.

    Customizable Sizes and Designs:

    Offered in different sizes ranging from small to large diameters, accommodating various application needs.

    Manufacturers often provide custom design services based on customer drawings and specifications for unique applications.

    Applications: Scientific Research and Instrumentation, Medical Devices and Diagnostics, Digital Imaging and Optics, etc.

  • Kingwin Optics Penta PrismsKingwin Optics Penta Prisms

    Penta Prisms

    High Reflectivity: Equipped with advanced reflective coatings, penta prisms minimize light scattering and maximize optical transmission.

    Accurate Beam Steering: Their precise geometry allows for the accurate redirection of light beams, essential in demanding optical applications.

    Compact Design: Offering a space-saving solution, penta prisms facilitate the efficient integration into various optical systems.

    Durability: Constructed from robust materials, these prisms withstand harsh conditions while maintaining consistent optical quality.

    Applications: Optical Instrumentation, Laser Technology, Photography & Cinematography, Machine Vision & Automation, Medical Imaging, etc.

  • Kingwin Optics Right Angle PrismsKingwin Optics Right Angle Prisms

    Right Angle Prisms

    Cost-Effective Solution:

    Right-angle prisms offer a cost-effective alternative to dielectric mirrors for applications requiring 90° or 180° light redirection.

    Provide easier alignment advantages than regular mirrors.

    Mechanical Design Advantages:

    Compared to inclined mirrors, right-angle prisms are simpler to mount and bend from the outside, making them suitable for mechanical designs involving high acoustic or inertial loads.

    Retroreflective Properties:

    When used as a retroreflector, right-angle prisms redirect beams back in the direction they came from, as long as the acceptance angle constraints for TIR are not exceeded.

    High Precision and Customization:

    Custom right-angle prisms can be tailored to meet specific requirements in terms of flatness, surface quality, coatings, and other specifications.

    Minimized Optical Distortion:

    With high-precision polishing techniques, right-angle prisms exhibit minimized wavefront distortion, scattering, and other undesirable diffraction effects.

    Applications: Optical Instruments, Laser Applications, Photography and Imaging, Scientific Research, Medical Devices, Industrial Automation, Defense and Aerospace, etc.

  • Kingwin Optics Roof PrismsKingwin Optics Roof Prisms

    Roof Prisms

    Image Manipulation Capability: Roof Prisms excel at manipulating images by deflecting light beams by 90° and inverting them. This property allows for precise control over image orientation, making them ideal for applications requiring specific image arrangements.

    Compact Design: Compared to other optical elements that achieve similar image redirection, Roof Prisms often have a more compact design. This compactness is advantageous in space-constrained applications such as binoculars and compact cameras.

    High Optical Efficiency: By utilizing total internal reflection (TIR), Roof Prisms can redirect light beams with minimal loss of light intensity. This high optical efficiency ensures that the final image retains good brightness and contrast.

    Versatility: Roof Prisms are versatile components that can be incorporated into various optical systems. They can be used alone or in combination with other optical elements to achieve complex image manipulation tasks.

    Durability: Made from high-quality optical glass materials, Roof Prisms are designed to withstand the rigors of everyday use. They are often coated with anti-reflection and protective layers to further enhance their durability and longevity.

    Applications: Binoculars and Telescopes, Camera Lenses, Optical Instruments, Head-Mounted Displays (HMDs), Scientific Research, etc.

  • Kingwin Optics Wedge PrismsKingwin Optics Wedge Prisms

    Wedge Prisms

    Precise Light Deflection: Wedge prisms are designed with a shallow angle between their input and output faces, allowing them to deflect light towards the thicker portion of the prism at specific deflection angles.

    Adjustable Deflection Angle: The larger the wedge angle, the greater the angle of deviation when light emerges from the prism, providing flexibility in controlling the direction of the light beam.

    Circular Laser Beam Scanning: Rotating the wedge prism about the optical axis enables the achievement of circular laser beam scanning output, making it suitable for various scanning applications.

    Convenient Mounting: Wedge prisms are often fabricated into circular shapes for easy insertion into rotatable mountings, enhancing their usability in different setups.

    Versatile Pairing: Wedge prisms can be used as a single element or in pairs (Risley Prism Pair), offering versatility in meeting specific optical requirements.

    Applications: Laser Beam Steering, Anamorphic Beam Shaping, Adjustable Light Deflection, Circular Light Path Tracing, Optical Instrumentation, etc.