Optical Components - Page 2 of 4

Showing 17–32 of 59 results

IPL Filter Plates

Precision Wavelength Control: These filter plates enable precise control over the wavelength range of light energy emitted by the IPL device. This ensures that only the desired wavelengths reach the skin, maximizing treatment efficacy while minimizing potential side effects.

UV Protection: By effectively blocking ultraviolet (UV) spectral wavelengths, IPL Filter Plates protect both the user and the treated skin from harmful UV radiation, ensuring a safe treatment experience.

Durability and Longevity: Made from high-quality materials such as BK7, fused silica, or sapphire, these filter plates exhibit excellent durability and can withstand repeated use without significant degradation, ensuring a long service life.

Customizability: Available in a range of standard sizes and wavelength ranges, IPL Filter Plates can also be customized to meet specific treatment needs, offering flexibility and versatility.

High Damage Threshold: The hard coating applied to many IPL Filter Plates provides a high damage threshold, protecting the filter from thermal stress and other potential sources of degradation during high-energy treatments.

Deep Rejection: Advanced filter technologies enable deep rejection of unwanted wavelengths, further enhancing treatment precision and safety.

Applications: Medical Aesthetics, Dermatology, Veterinary Medicine, Research and Development, etc.

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Meniscus Lenses

Positive Focal Length: Biconvex lenses have positive focal lengths, making them ideal for converging collimated light to a single point.

Versatile Applications: These lenses are highly versatile and can be used in a wide range of applications, including modulation and focusing of laser beams and imaging instruments.

Optimal for Specific Conditions: Biconvex lenses are particularly recommended when the absolute finite conjugate ratio is equal to or close to 1:1, minimizing spherical, coma, and distortion.

Customizable Materials: Kingwin Optics offers biconvex lenses made from various materials such as Fused Silica, BK7/N-BK7, BaF2, CaF2, MgF2, Ge, ZnSe, Sapphire, catering to diverse needs.

Broad Spectrum Compatibility: The working wavelengths of these lenses span the UV to IR spectrum, ensuring compatibility with a wide range of optical systems.

Custom Coating Options: With options like uncoated substrates, Broadband Anti-reflection (BBAR) coatings, V-coating, and MgF2 AR coatings, customers can choose the coating that best suits their requirements.

Tailored Specifications: Diameters, focal lengths, and the f/number of the biconvex lenses can be customized according to specific requests, ensuring optimal performance for each application.

High Precision Option: The surface irregularities of the lenses can be the conventional λ/4 or λ/8 if higher precision is required, providing flexibility for precision-critical applications.

Applications: Laser Beam Modulation and Focusing, Imaging Instruments, Optical Systems with Specific Conjugate Ratios, Scientific Research and Industrial Applications, etc.

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Mirrors for Ring Laser Gyros

Ultra-low absorption and scattering losses: Mirrors must be able to reflect laser light efficiently, reducing the absorption and scattering of light during propagation to maintain the intensity and stability of the laser beam.

Excellent resistance to the plasma environment: In RLG, the interaction of the laser with the mirror can produce plasma, and the mirror needs to have good resistance to the plasma environment to prevent degradation of performance.

Long durability: Mirrors need to withstand long-term operation and high-frequency vibrations, so they must have high durability to ensure the long-term stability of the RLG.

Applications: Ultra-precision polishing technology, Advanced inspection technology, etc.

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N-BK7 Biconcave Lenses

Negative Focal Length: The double concave lens has a negative focal length, which allows it to diverge collimated light beams to the virtual focal point.

Versatile Applications: Biconcave lenses are versatile and can be used for divergence of collimated or focused light beams, beam diameter modulation, correction of spherical aberration in optical assemblies, and increasing the focal lengths of a lens group.

Optimal Performance: Due to its symmetric structure, the double concave lens works best when the conjugate ratio is close or equal to 1:1, providing minimal distortion, spherical/chromatic aberration, and coma.

Cost-Effective: N-BK7 glass is known for its low cost, making it an economical choice for manufacturing optical components.

High Optical Transmission: N-BK7 glass offers high optical transmission across the visible spectrum and into the near-infrared region (350-2200nm).

Durability: The material is known for its high hardness and resistance to scratches and abrasions, as well as its ability to withstand changes in temperature without significant expansion or contraction.

Applications: Beam Divergence, Beam Diameter Modulation, Spherical Aberration Correction, Focal Length Adjustment, Custom Optical Solutions, etc.

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N-BK7 Biconvex Lenses

Positive Focal Length: Biconvex lenses have positive focal lengths, effectively converging collimated light to a single point, making them ideal for various optical applications.

Versatile Applications: With their ability to modulate laser beams, focus light, and facilitate imaging, biconvex lenses are highly versatile and suitable for a wide range of optical systems.

Optimal for Conjugate Ratios Near 1:1: When the absolute finite conjugate ratio is equivalent to or near 1:1 (ranging from 1:5 to 5:1), biconvex lenses are recommended for optimal performance.

Precise Focal Length Calculation: The focal lengths of biconvex lenses can be accurately calculated using the formula: f = (R1*R2) / ((n-1) * (R2-R1)), allowing for precise optical design.

High-Quality N-BK7 Optical Glass: Manufactured using N-BK7 optical glass, these lenses offer low cost, high optical transmission across the visible spectrum and into the near-infrared region, low dispersion, high hardness, resistance to scratches and abrasions, and temperature stability.

Applications: Laser Beam Modulation, Light Focus, Imaging, etc.

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N-BK7 Metallic Mirrors

Cost-Effective: N-BK7 is one of the most common materials for optical components, featuring low bubble/inclusion content and decent mechanical/chemical endurance. Compared with UV-fused silica mirrors, N-BK7 mirrors are less expensive.

Wide Reflective Spectral Range: Metallic-coated mirrors feature a wide reflective spectral range, making them suitable for applications requiring a broad rejection range.

Non-Sensitive to Incidence Angle and Polarization State: Metallic coatings are not sensitive to the incidence angle and polarization state, providing consistent performance across various applications.

Versatile Coatings: Three metal materials are utilized to coat the mirror substrates: Aluminum (Al), Silver (Ag), and Gold (Au), each with its unique reflectance characteristics and applications.

Applications: Laser Systems, Optical Instrumentation, Research and Development, Industrial Applications, etc.

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N-BK7 Mirror Blanks

Excellent Transmission: N-BK7 material features excellent transmission from the visible to NIR spectrum, making it an ideal choice for transmission optical components.

Low Inclusion of Impurities: The low inclusion of bubbles and impure substances ensures high-quality optical performance.

Ease of Manufacturing and Machining: N-BK7 material is easy to manufacture and machine, allowing for cost-effective production of optical components.

Fine Mechanical Properties: As mirror substrates, N-BK7 offers fine mechanical properties, resistance to scratches, and stable chemical properties.

Versatile: Kingwin Optics offers stocked N-BK7 windows or mirror blanks with Lambda/4 and Lambda/10 flatness modules, providing versatility for various applications.

Applications: Optical Instrumentation, Laser Systems, Research and Development, Industrial Applications, etc.

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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.

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Plano-Concave Cylindrical Lens

Precise Light Control: Ideal for applications requiring accurate light shaping and modulation.

Versatile Applications: Suitable for a wide range of optical instruments and devices.

High-Quality Materials: Made from premium optical materials ensuring high performance.

Ample Inventory: Extensive stock ensures quick availability and diverse options.

Applications: Beam Transformation, Slit Coupling, Laser Scanners, Spectroscopy, Dye Lasers, Acousto-Optics, Optical Processors, Astigmatism Correction, etc.

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Plano-Convex Cylindrical Lens

High Optical Quality: Superior materials like N-BK7 ensure high optical homogeneity and transmission.

Versatility: Suitable for a wide range of applications, including laser focusing and beam shaping.

Customization: Extensive options for coatings, materials, and dimensions to meet specific requirements.

Precision: Tight tolerances and stringent inspection processes guarantee high performance and reliability.

Reputation: Kingwin Optics is recognized globally for its engineering expertise and commitment to quality.

Applications: Beam Condensing, Laser Diode Coupling, Aspect Ratio Modulation, Laser Scanners and Dye Lasers, Energy Receivers, Spectroscopy, Anamorphic Beam Shaping, etc.

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Precision Polished Aspheric Lenses

Wide Transmission Range:

Lenses are available with a transmission range extending from UV to NIR.

Variety of Diameters:

Available diameters range from 5mm to 390mm.

Preforms:

Options include plano-convex/plano-concave lenses, ball/half lenses, meniscus lenses, biconvex/biconcave lenses, and achromatic lenses.

Custom Coatings:

Uncoated substrates.

Broadband Anti-reflection (BBAR) coatings: Average reflection below 0.5% over a certain wavelength range.

Laser line V-coating: Higher transmission with average reflection below 0.25% at a narrower wavelength range.

MgF2 AR coatings: Average reflection below 1.5%, offering a competitive price.

Applications: Optical Communication, Consumer Electronics, Scientific Research, etc.

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Quartz IPL Light Guides

Excellent Optical Transparency: Quartz possesses high optical transparency, allowing for efficient transmission of laser energy with minimal loss. This ensures that the desired wavelengths reach the target tissue effectively, maximizing treatment outcomes.

UV Blocking Capability: A crucial advantage of Quartz IPL Light Guides is their ability to block ultraviolet (UV) wavelengths. This protects the skin and other target tissues from potentially harmful UV radiation, ensuring safe and effective treatments.

Thermal Stability: Quartz exhibits good thermal conductivity, which helps dissipate heat generated during intense pulsed light treatments. This thermal stability prevents overheating and ensures consistent performance over extended use.

Chemical Resistance: Quartz is highly resistant to chemical attack, making it suitable for use in various environments and applications. This durability extends the lifespan of the light guides and reduces maintenance requirements.

Customizable Design: Quartz IPL Light Guides can be custom-designed to meet specific size, shape, and performance requirements. This flexibility allows manufacturers to tailor the light guides to their unique IPL devices and treatment protocols.

Applications: Cosmetic Treatments, Medical Procedures, Industrial and Scientific Applications, etc.

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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.

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Rod Lenses

High Light Transmission: The precision-polished circumference of rod lenses ensures optimal light transfer, making them highly efficient in various optical systems.

Versatile Design: Rod lenses can be customized with different optical materials and coatings to suit a wide range of applications, providing flexibility in design and performance.

Excellent Focusing Capabilities: These lenses are designed to collimate divergent light and provide linear focusing, making them ideal for imaging and laser processing applications.

Durability and Stability: Made from high-quality optical materials, rod lenses offer excellent durability and stability, ensuring long-term performance in demanding environments.

Applications: Optical Systems, Medical Endoscopes, Laser Processing, Light Pipes, etc.

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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.

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Sapphire Ball Lenses and Half-ball Lenses

High Transmittance: Sapphire’s inherent optical properties ensure minimal absorption and scattering, resulting in high transmittance across a wide spectral range.

Durability: With a Mohs hardness of 9, sapphire lenses are highly resistant to scratches, abrasion, and chemical attack, making them suitable for harsh environments.

Precision Optics: The lenses are manufactured to precise specifications, ensuring optimal performance in demanding optical systems.

Customizability: Available in various diameters, coatings, and surface qualities, these lenses can be tailored to specific application requirements.

Applications: Medical Devices, Telecommunications, Scientific Research, Aerospace, Industrial Inspection, etc.

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