SUGITOH OPTICAL (THAILAND) CO., LTD.

Sugitoh Optics' Plano-Convex Lenses for Optimized Optical Performance (Samut Sakhon,Thailand)

Sugitoh Optics' Plano-Convex Lenses meet precise optical needs with custom anti-reflective coatings for enhanced performance. The Plano-Convex Lenses from Sugitoh Optics, featuring a positive focal length, are suitable for a wide range of applications including image magnification, light gathering, and collimation (creating parallel light beams). They are especially effective in infinite conjugate systems, allowing parallel light beams or light from distant sources to enter through the convex side, minimizing spherical aberrations. This arrangement efficiently concentrates light exiting from the planar side. Features Minimized Spherical Aberration: Entry of parallel light beams through the convex side effectively reduces spherical aberrations. Versatile Applications: Suitable for image magnification, light gathering, and collimation among various optical uses. Customizable Coating: Offers anti-reflective coatings customized to user requirements, designed with precision based on coating simulation data. Specifications Coating: Standard uncoated. Custom anti-reflective coating available. Material: High-quality optical glass. Applications: Ideal for image magnification, light gathering, collimation, etc. Design: Optimized design to minimize spherical aberration. Sugitoh Optics' Plano-Convex Lenses combine precise optical performance and customizable flexibility, catering to needs across scientific research and industrial applications. The choice of special coatings allows for performance optimization tailored to specific environmental conditions and optical requirements. For more information, please download the PDF or feel free to contact us anytime.

Synthetic Quartz Plano-Convex Lenses with High Durability (Samut Sakhon,Thailand)

"Synthetic Quartz Plano-Convex Lens": A revolutionary product from Sugido Optics, crafted for utmost optical performance and durability. Sugido Optics' synthetic quartz plano-convex lenses are designed for optical equipment applications that demand exceptionally high transmittance and heat resistance. These lenses utilize synthetic quartz material, enabling excellent optical performance across a broad wavelength range from ultraviolet to infrared. They are versatile for use in various fields, from scientific research to industrial applications. ■ Features High Transmittance: Boasts exceptionally high light transmittance from ultraviolet to infrared wavelengths. Heat Resistance: Durable in high-temperature conditions without performance degradation, allowing for prolonged use. Chemical Resistance: Resistant to many chemicals and solvents, usable in harsh environments. Precision Fabrication: Designed and manufactured with high precision, ensuring high optical performance. ■ Specifications Material: Synthetic Quartz Shape: Plano-Convex Applications: Optical devices, laser technology, scientific research Size Range: From 5 mm to 50 mm Wavelength Range: From 185 nm to 2500 nm ■ Applications Synthetic quartz plano-convex lenses are particularly suitable for the following uses: Scientific Research: Spectrometers, microscopes, and other research optical devices. Laser Technology: Laser cutting machines, measuring devices, laser treatment tools. Industrial Applications: Precision measuring instruments, fiber optic communication equipment. These lenses from Sugido Optics are designed to achieve the highest levels of optical performance and durability, enabling optimal utilization of optical devices.

Sugitoh Optics' Plano-Concave Lenses: Diffusing and Diverging Light for Scientific Research (Samut Sakhon,Thailand)

From scientific research to industrial applications, Sugitomo Optics' Plano-Concave Lenses enable precise light control. High-precision beam diffusion meets all optical needs. Sugitoh Optics' Plano-Concave Lenses, with one side flat and the other concave, possess the ability to diffuse incoming light, making them ideal for diffusing laser beam sources and diverging light. They excel in a variety of industrial applications, including precise optical experiments, laser systems, and lighting design. Features Light Diffusion: Plano-Concave Lenses can effectively diffuse light from sources such as laser beams. Precise Optical Control: The angle of light diffusion can be precisely controlled to create optimized light patterns for specific applications. High-Quality Materials: Made with durable and transparent optical glass, designed for long-term use without degradation of optical performance. Specifications Material: High-quality optical glass. Size Range: Diameters from 5mm to 50mm, with custom sizes available. Optical Properties: Designed for precise control of light divergence and diffusion. Applications: Laser systems, optical experiments, lighting design, etc. Sugitoh Optics' Plano-Concave Lenses are an excellent tool for precisely controlling the diffusion and divergence of light, suitable for both scientific research and industrial applications. They provide optical solutions tailored to various scenarios, with high-quality materials and precise design ensuring long-term, stable performance. For more information, please download the PDF or feel free to contact us anytime.

Sugitoh Optics' Synthetic Quartz Concave Lenses (Samut Sakhon,Thailand)

"Synthetic Quartz Concave Lens": Surpassing limits in optical dispersion capabilities, Sugido Optics offers the ultimate in optical components. Sugitoh Optics' synthetic quartz concave lenses enable precise light diffusion and control required for cutting-edge optical systems. These concave lenses are manufactured using particularly high-purity synthetic quartz, delivering exceptional performance across a broad wavelength range from ultraviolet to infrared. They have proven their value in various applications including optical research, laser systems, and precision measuring instruments. ■ Features High-Purity Material: Uses high-purity and uniform synthetic quartz to ensure the highest level of optical performance. Broad Wavelength Compatibility: Achieves excellent light transmission from UV to IR. Precision Optical Design: The lens shape, designed based on precise optical calculations, provides ideal light diffusion. ■ Specifications Material: Synthetic Quartz Shape: Concave Applications: Spectrometers, laser systems, high-precision optical equipment Diameter: Ranges from 5 mm to 50 mm Wavelength Range: 185 nm to 2500 nm ■ Applications This concave lens is particularly suitable for the following uses: Scientific Research: Use in analytical devices, experimental apparatus, etc. Laser Systems: For diffusing and shaping laser beams. Precision Instruments: As a component in optical systems required for advanced measurement and inspection. Sugitoh Optics' synthetic quartz concave lenses, with their precise design and superior materials, are capable of meeting all optical needs.

Biconvex Lenses for Clear Vision (Samut Sakhon,Thailand)

Biconvex lenses adaptable for all optical systems, from focusing light to enlarging images. Achieves clear vision and compact design. Biconvex lenses, with both sides curved outward, are used for focusing light or enlarging images. These lenses have a positive focal length and can concentrate light to a point, making them applicable in various optical devices such as lighting systems, telescopes, binoculars, cameras, and projectors. Compared to plano-convex lenses, they can refract light beams more effectively, allowing for a more compact optical system design. ■ Features Light Concentration Performance: Efficiently concentrates light to a point, exhibiting high performance in lighting and laser technology. Magnification Ability: Capable of capturing details clearly in optical devices like microscopes and telescopes. Compact Design: Enables the miniaturization of optical systems, enhancing portability and ease of use. Custom Coating Support: Customizable coatings such as anti-reflective coatings are available on request. ■ Specifications Shape: Both sides curved outward Focal Length: Positive value Coating: Uncoated (customizable for anti-reflective coatings, etc.) Biconvex lenses are versatile and high-performing, suitable for a wide range of applications from lighting to precision instruments. They provide a clear view and compact design for various uses. For more details, please download the PDF or feel free to contact us.

Industry Standard Biconvex Lenses Made from Synthetic Quartz (Samut Sakhon,Thailand)

"Synthetic Quartz Biconvex Lens": A high-quality lens from Sugido Optics, excelling in every scene where light concentration performance is demanded. Sugido Optics' synthetic quartz biconvex lenses are among the most common and crucial components in optical systems. These lenses can efficiently concentrate light across a broad range from ultraviolet to visible light and infrared. Additionally, the superior physical and chemical properties of synthetic quartz ensure durable optical performance even under harsh conditions and over long periods. ■ Features Broad Optical Application: Achieves high transmittance over a wide wavelength range, adaptable to various optical uses. Advanced Heat Resistance: The synthetic quartz material provides excellent heat resistance, allowing for long-term usage. Environmental Resistance: Offers greater chemical stability than typical optical glass, protecting the lens from corrosion and degradation. ■ Specifications Material: High-purity synthetic quartz Shape: Biconvex Applications: Precision optical instruments, laser systems, measuring devices Diameter Range: 5mm to 50mm Compatible Wavelengths: 185nm to 2500nm ■ Applications Sugido Optics' synthetic quartz biconvex lenses excel in the following applications: Laser Systems: Used for beam forming and light concentration. Imaging Systems: Enhances imaging quality in cameras and microscopes. Measuring Instruments: Serves as optical components necessary for precise measurements. The synthetic quartz biconvex lenses provide excellent performance and durability across all optical applications, enabling clearer and more accurate vision.

Sugitoh Biconcave Lenses - For Clear Optical Path Design (Samut Sakhon,Thailand)

Achieve precise optical design with Sugitoh's biconcave lenses. For those seeking clear images and accurate optical paths. Sugitoh biconcave lenses are high-quality lenses that enable precise optical path design in optical systems. These lenses assist in the diffusion of light and suppress the convergence of light within the system, making them ideal for use in beam expanders , fiber optic lighting systems , and optical research and development. They deliver reliable performance in experiments and product development where precision is critical. Features: High-quality materials provide excellent transmittance and minimal distortion Precision polishing ensures accurate shape retention and consistent optical performance High thermal stability maintains performance even under harsh conditions Multiple coating options allow optimization for various wavelength ranges Customizable designs to suit specific optical systems Specifications: Shape: Biconcave Material: High-quality optical glass Coating: Anti-reflection coating available, customizable for different wavelengths Tolerance: Suitable for industrial applications within strict tolerance ranges Applications: Sugitoh's biconcave lenses are used for diffusing laser beams, adjusting converging light, and correcting optical system distortions. They are particularly suitable for the following applications: - Optical research and development - Laser systems - Fiber optic lighting - Optical inspection equipment Sugitoh's biconcave lenses bring clarity to your vision. They are an uncompromising choice in optical system design.

Sugitoh Synthetic Quartz Biconcave Lenses Using High-Purity Silica (Samut Sakhon,Thailand)

Sugitoh's synthetic quartz biconcave lenses are a clear solution that maximizes optical system precision with high-purity silica. Sugitoh's synthetic quartz biconcave lenses, made using high-purity silica, combine excellent chemical stability and heat resistance. These lenses perform exceptionally well in optical systems exposed to high temperatures or intense laser light. Characterized by their transmission capability across a broad wavelength range from ultraviolet to infrared, they are suitable for a wide variety of applications including precision measurement, analytical devices, and laser processing equipment. Features: Enhanced transmittance due to the use of extremely pure synthetic quartz material Strong durability and corrosion resistance against high temperatures and chemicals Outstanding optical properties across a wide wavelength range from ultraviolet to infrared High damage threshold against laser light, durable for long-term usage Flexible specification changes according to custom designs Specifications: Material: Synthetic fused silica Shape: Biconcave Wavelength range: Ultraviolet to infrared regions Temperature resistance: Suitable for use in high-temperature environments Coating: Anti-reflective coating option available Applications: These lenses are particularly well-suited for use in environments such as: - Analytical devices using ultraviolet light - Medical devices utilizing lasers - Optical experiments in high-temperature conditions - Precision processing equipment Sugitoh's synthetic quartz biconcave lenses, with their high durability and transmittance, provide an innovative solution for optical systems in harsh environments.

Clear Vision with Color Correcting Lenses: Ideal for Professional Use (Samut Sakhon,Thailand)

Leverage color correcting lenses (Achromatic Lenses) and Sugitoh Optics technology for peak performance. Sugitoh Optics’ color correcting lenses (Achromatic Lenses) are precision optical lenses designed to minimize chromatic aberration. These lenses are used in a variety of fields including scientific research, medical devices, and advanced photography, performing exceptionally well in professional settings. Features To achieve high-definition image quality, two lenses with different refractive indices are combined to effectively correct chromatic aberration. Made with durable materials, these lenses maintain performance even under tough conditions. They support a wide range of wavelengths, consistently providing a clear vision. Specifications Focal lengths: 50mm / 100mm / 150mm Lens diameters: 25mm / 35mm / 50mm Materials: High refractive index glass and low dispersion glass Weight: approximately 20g to 50g Wavelength range: 400nm to 700nm Sugitoh Optics’ color correcting lenses are versatile enough for professional and hobbyist applications alike, particularly excelling in fields that demand precision and performance such as scientific research and medical devices.

High-Quality Hemispherical Lenses for Precision Measurement and Optical Research (Samut Sakhon,Thailand)

Explore the world of precise measurement and evolving optical research guided by Sugito Optics' hemispherical lenses. Sugito Optics' hemispherical lenses are designed to deliver superior optical performance for precision measurement and optical research. Utilizing the characteristics of aspherical lenses, they are designed to improve the handling of light in a wide range of optical systems, making them essential optical components for research and development that requires meticulous precision. Features Aspherical design achieves excellent light focusing and dispersion. Advanced coating technology minimizes light reflection losses. Ensures high transmission rates across a wide wavelength range, accommodating various optical applications. Specifications Materials: BK7, high UV-transmittance synthetic quartz Diameter: 10mm to 50mm Shape: Hemispherical, aspherical Surface quality: 40/20 scratch/dig Coating: Anti-reflective coating (AR coating) available as an option Hemispherical lenses excel particularly in applications such as laser beam control, coupling into optical fibers, and guiding light in precision instruments. With Sugito Optics' technology, high transmittance and precision can be achieved, elevating optical research to the next level.

Optical Design with Ball Lenses: High Imaging Performance and Uniform Illumination (Samut Sakhon,Thailand)

Achieve high-performance light transmission with Sugitoh Optics’ ball lenses, catering to all optical needs. Sugitoh Optics' ball lenses are the optimal optical components for solving issues related to imaging and light collimation. Used at the end of optical fibers or in laser oscillators, these lenses exhibit excellent light transmission characteristics. They are indispensable in optical systems, enabling uniform illumination and precise light control. Features High-precision spherical processing technology ensures uniform and stable light output. Wide acceptance angle provides high coupling efficiency with optical fibers. Available in various sizes and materials, allowing for customization to specific optical systems. Specifications Materials: BK7 glass, quartz, sapphire Sphere diameter: 1mm to 10mm Surface accuracy: λ/4 @ 632.8 nm Surface quality: 20-10 scratch/dig Design wavelength: 350nm to 2.3μm Applications Collimation and focus adjustment in laser optical systems High-efficiency light coupling at the terminations of optical fibers Use as a light source in medical endoscopes and inspection equipment Ball lenses, with their compact size and optical simplicity, meet the diverse demands of intricate optical applications. Sugitoh Optics provides this critical component through cutting-edge processing technology and strict quality control.

Optical Systems with Rod Lenses: Precision Imaging and Light Transmission (Samut Sakhon,Thailand)

The key to precision optics, achieve clear imaging and efficient light transmission with Sugitoh Optics’ rod lenses. Sugitoh Optics' rod lenses are widely used in applications requiring high optical performance, such as collimation of laser diodes and coupling with optical fibers. Capable of high light transmission and precise imaging, rod lenses are indispensable components in diverse optical systems ranging from telecommunications to medical devices. Features Precision machining ensures excellent surface quality and uniform light transmission. Rigorous design for high-quality collimation of laser beams. Customizable in various lengths and diameters, offering flexible options tailored to specific applications. Specifications - Materials: High-quality BK7 glass or quartz glass - Length: 5mm to 100mm - Diameter: 2mm to 10mm - Optical finish: Fine polish - Coating: AR coating option for high transmission - Wavelength range: Visible to near-infrared Applications - As collimation lenses in laser optical systems - For coupling optical fibers and laser diodes - Optical inspection equipment, endoscopes, medical imaging devices Sugitoh Optics' rod lenses meet the needs for precise imaging and efficient light transmission with their superior quality and optical properties. These lenses are an optimal choice for researchers and engineers requiring cutting-edge technology.

Characteristics of Plano-Convex Cylindrical Lenses Suitable for Anamorphic Optical Systems (Samut Sakhon,Thailand)

With Sugitoh Optics' plano-convex cylindrical lenses, meet the precise solutions for asymmetric optical demands. Sugitoh Optics' plano-convex cylindrical lenses are designed to meet the special requirements of anamorphic optical systems. These lenses, which expand light only in one direction, are ideal for specific applications such as line illumination and laser scanning. Features Focusing in one direction to achieve clear line generation. Material and coating options available for a wide range of wavelengths. Improved image quality in anamorphic imaging. Specifications Materials: Various glass types including BK7, quartz, sapphire Focal lengths: Customizable sizes Surface quality: 40/20 scratch/dig Coating: Multiple options including multi-layer AR coating Dimensions: Width and length customizable to client specifications Applications Use in line lighting systems Anamorphic beam shaping Machine vision systems and optical measuring instruments Sugitoh Optics' plano-convex cylindrical lenses provide highly effective solutions for complex applications requiring optical asymmetry. Our lenses, with their advanced optical performance and customization flexibility, are trusted to deliver precise results tailored to various needs.

Plano-Concave Cylindrical Lenses Required for Advanced Optical Systems (Samut Sakhon,Thailand)

With Sugitoh Optics' plano-concave cylindrical lenses, diffuse light broadly and open up new vistas. Sugitoh Optics' plano-concave cylindrical lenses are specially designed to diffuse a broad range of light, making them indispensable for advanced optical systems. These lenses provide performance that other lenses cannot match when precise light diffusion or specific optical patterns are required by the optical system. Features Excellent diffusion properties in one direction, meeting a wide range of illumination needs. Precision design enables uniform distribution of light. Ideal for use in laser optics and imaging systems. Specifications Material: High-quality glass such as BK7, quartz, sapphire Dimensions: Width and length can be customized Surface quality: 60-40 scratch/dig Coating: High transmission rates with AR coating option Applications Uniform diffusion of light within imaging systems Testing and calibration of optical equipment High-resolution scanning systems Sugitoh Optics' plano-concave cylindrical lenses achieve uniform and extensive light diffusion necessary to enhance the precision of lighting and imaging. Our lenses are developed to improve the performance of your optical systems and meet the needs of a wide range of scenarios, from research and development to industrial applications.

Optical Properties of Meniscus Lenses: Application to Efficient Design of Precision Optical Systems (Samut Sakhon,Thailand)

Masterfully control light focusing and diffusion with Sugitoh Optics' meniscus lenses, enhancing the efficiency of precision optical systems. Meniscus lenses, which have one convex and one concave side, are used to optimize the balance of light focusing and diffusion in optical systems. Sugitoh Optics' meniscus lenses, with their unique shape, allow for maintaining high performance while reducing the size of the optical system. Features Unique design reduces aberration and enables high-resolution imaging. Corrects optical aberrations, providing sharp and clear images. Reduces the optical length of the system, increasing design flexibility. Specifications Material: BK7 or high refractive index glass Focal length: Customizable Surface accuracy: λ/10 @ 632.8 nm Surface quality: 20/10 scratch/dig Size: Diameters from 10mm to 200mm Applications Precise light control in optical measuring instruments Beam shaping for laser light sources Applications in medical and biological imaging Sugitoh Optics' meniscus lenses significantly contribute to the efficient design and performance enhancement of optical systems through cutting-edge optical technology and uncompromising quality control. Exploring new possibilities in optical design and continuing to provide superior optical solutions is our mission.

Utilizing the 90° Right Angle Prism to Transform the Field of View (Samut Sakhon,Thailand)

The 90° right angle prism expands the field of view, enabling image inversion and the bending of light rays by 90 degrees. It enhances the functionality of binoculars and microscope eyepieces, bringing innovation to side viewing and illumination. The 90° right angle prism is a crucial component that achieves image inversion and the bending of incoming light by 90 degrees in optical devices. It is particularly used in the eyepieces of binoculars and microscopes, as well as in camera lenses and illumination fibers, to improve performance. By using this prism, effective reflection of images and light rays is achieved, and the functionality is further enhanced through coating on sloped or Dach surfaces. ■ Features The inversion of images and the 90-degree bending of incoming light expand the field of view for binoculars and microscopes, enabling more realistic observation. When used close to camera lenses or illumination fibers, effective side viewing or illumination is possible, broadening the scope of photography and lighting techniques. It also contributes to focal point adjustment, placing the prism in the light collection path extends the focal point, allowing for broader observation. ■ Specifications Material: Uses BK7 glass for high light transmission and durability. Size: The prism size allows for focal point adjustment to about 1/3. Coating: Special coating on sloped or Dach surfaces to increase reflectivity and functionality. Adaptable to a wide range of applications including binoculars, microscopes, camera lenses, and illumination fibers, contributing to the performance enhancement of optical devices. For engineers and researchers, this innovative component plays a crucial role in expanding the possibilities of observation and photography techniques. For more details, feel free to download the PDF or contact us.

Enhancing Optical Device Performance (Samut Sakhon,Thailand)

The roof prism achieves a 90° deviation of light and image, revolutionizing side-view observation. Leveraging precise aluminum reflection, it expands the possibilities of optical devices. The roof prism is a key component in optical systems for precisely controlling the deviation and inversion of light or images. Utilizing this prism for side-viewing allows the incoming light or image to be deviated by 90° and inverted using the aluminum reflective surface of the roof section. This technology significantly enhances the performance of optical devices, increasing the accuracy of observation and analysis. ■ Features The 90° deviation of light or image offers new possibilities for side-view observation. The aluminum reflective surface of the roof section achieves high reflectivity, minimizing light loss. The capability to invert images allows for obtaining information from different perspectives during observation or analysis. ■ Specifications Reflective Material: High-quality aluminum is used to ensure durability and high reflectivity. Angle of Deviation: Designed to reflect light or images at a 90° angle. Application: Suitable for optical devices that require side-view observation. Roof prisms are adopted in many optical devices to improve the precision and efficiency of side-view observation. They enable precise control of light or images, expected to enhance performance in a wide range of applications such as scientific research, industrial inspection, and the medical field. Advanced technology and precise design unlock new possibilities for optical devices. For more details, feel free to download the PDF or contact us.

The New Standard in Optical Systems (Samut Sakhon,Thailand)

The Dove prism allows for image inversion and multi-angle light emission. Enhanced functionality through custom coatings on sloped or Dach surfaces brings innovation to optical systems. The Dove prism plays a crucial role in the inversion of images and the direction control of light within optical systems. Its capability to invert images horizontally, and to bend incoming light by 90° for lateral emission, as well as allowing for 180° parallel emission, broadens the design and application scope of optical systems. Although the product is primarily provided uncoated, functionality can be further enhanced through custom coatings on sloped or Dach surfaces by special order. ■ Features Meets diverse design requirements of optical systems through horizontal image inversion and the adjustment of light emission angles at 90° and 180°. Offered in a basic uncoated specification, with the possibility of custom coatings on sloped or Dach surfaces for optimal reflectivity and functionality tailored to specific applications. The adjustment of light reflection and directionality enhances the design flexibility of optical systems, enabling the development of more sophisticated optical devices. ■ Specifications Coating: Various coatings can be applied to sloped or Dach surfaces by special order, improving reflectivity or adjusting specific optical properties. Emission Angles: Achieves lateral emission by bending incoming light by 90° and 180° parallel emission. Application Range: Suitable for design in optical devices, scientific research, industrial inspection, medical devices, and more. The Dove prism is a key component in the design and functional expansion of optical systems. In particular, the enhancement of functionality through custom coatings allows for the optimization of optical systems tailored to specific applications. Advanced technology and customizability unlock new possibilities in optical systems. For more details, feel free to download the PDF or contact us.

The New Standard in Precision Spectroscopy (Samut Sakhon,Thailand)

A beam splitter that perfectly divides incident light in the visible spectrum into a 50:50 split. Achieves the highest optical performance with an anti-reflective coated exterior polished surface. Beam splitters play a crucial role in the optical systems of the visible spectrum, especially indispensable for optical experiments and precise light path design of optical equipment. By splitting multicolor light incident at θ = 45° into a 50:50 ratio of transmission and reflection, it allows for the distribution of light in two directions simultaneously, significantly enhancing the flexibility and accuracy of optical systems. Furthermore, the exterior polished surface is coated with an anti-reflective coating, minimizing unwanted reflections, reducing light loss, and maintaining light quality. ■ Features Divides incident multicolor light at θ = 45° into a 50:50 transmission-reflection ratio, offering diversity and precision in optical system design. The exterior polished surface with an anti-reflective coating suppresses unwanted reflections and minimizes light loss. Delivers high performance in the visible spectrum, applicable in a wide range of fields such as scientific research, medical devices, and optical communication. ■ Specifications Split Ratio: 50:50% (transmission-reflection) Angle: Compatible with light incident at θ = 45° Coating: Exterior polished surface with an anti-reflective coating Applications: Optical experiments, scientific research, medical devices, optical communication systems The precise control and splitting of light by beam splitters are key technologies for the design and performance improvement of optical systems. Especially, the high-quality transmission and reflection through the anti-reflective coating are essential for enhancing the reliability and accuracy of optical systems. This innovative beam splitter offers new possibilities in optical design, supporting research and development across various scientific and technological fields. For more details, feel free to download the PDF or contact us.

Customization of High Reflective Aluminum Surface Mirrors (Samut Sakhon,Thailand)

Aluminum surface mirrors critical to optical system performance. Optimize reflectivity with SiO and MgF2, two types of protective films, supporting custom orders tailored to applications. Aluminum surface mirrors are crucial optical components in high-precision optical equipment and scientific research. The reflective coating applied to one side efficiently reflects light and images, significantly enhancing the performance of optical systems. Sugitoh offers two types of protective films, SiO (Silicon Oxide) and MgF2 (Magnesium Fluoride), as standard products, allowing for the optimal choice based on application requirements and desired reflectivity. ■ Features SiO Protective Film: Exhibits slight absorption in the ultraviolet region, leading to a slight decrease in reflectivity. However, it can be deposited at low temperatures, offering excellent cost-performance. MgF2 Protective Film: Maintains high reflectivity across a wide range of wavelengths but requires high temperatures for deposition, resulting in slightly higher costs compared to SiO. Custom Order Compatibility: Beyond catalog listings, custom orders for different materials, coatings, and dimensions are possible. We provide aluminum surface mirrors ideally suited for optical system design. ■ Specifications Protective Film Materials: SiO (Silicon Oxide), MgF2 (Magnesium Fluoride) Applicable Wavelength Range: Wide range, centered on the visible spectrum Customization Options: Material, coating, and dimension custom orders High reflective aluminum surface mirrors are indispensable components in scientific research and the development of high-precision optical equipment. SiO and MgF2 protective films each offer unique characteristics, allowing for selection based on optical system performance and cost efficiency. Sugitoh expands the possibilities of optical design through custom orders tailored to clients' needs. For more details, feel free to download the PDF or contact us.