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Product Parameters
Specs | Metal Film Mirror | Dielectric High Reflection Film Mirror |
Dimensional tolerance | +/-0.01mm | |
Thickness tolerance | ±0.02mm | |
Dimension | Custom-designed | |
Reflective surface quality | 20-10 S/D | |
Parallelism | <0.5' | |
Irregularity | λ/10@633nm | |
Reflectance | R>90% | |
Coating | Aluminum, Gold, Silver, etc. | Custom-designed |
Beveling | 0.1-0.3mm*45° |
Product Introduction
Mirrors are crucial components in optical systems, featuring smooth surfaces with high reflectivity, used for converging, diverging, and redirecting beams of light. The working principle of mirrors is based on the law of reflection of light, which states that when light reflects from a smooth interface, the reflected ray, the incident ray, and the normal all lie in the same plane, and the angles of the reflected ray and the incident ray are equal. By precisely designing and manufacturing the surface shape and material of mirrors, precise control and focusing of light rays can be achieved.
Metal mirror: These are mirrors that utilize metal surfaces to reflect light or electromagnetic radiation.
Dielectric High-Reflection film Mirror: The working principle is based on the interference and reflection of light. By coating the surface of an optical element with one or more layers of dielectric films, interference superposition of light within a specific wavelength band occurs within the film layers, thereby enhancing the reflectivity. When light strikes the surface of the mirror, most of the light is reflected back, creating a high-reflection effect.
Product Parameters
Specs | Metal Film Mirror | Dielectric High Reflection Film Mirror |
Dimensional tolerance | +/-0.01mm | |
Thickness tolerance | ±0.02mm | |
Dimension | Custom-designed | |
Reflective surface quality | 20-10 S/D | |
Parallelism | <0.5' | |
Irregularity | λ/10@633nm | |
Reflectance | R>90% | |
Coating | Aluminum, Gold, Silver, etc. | Custom-designed |
Beveling | 0.1-0.3mm*45° |
Product Introduction
Mirrors are crucial components in optical systems, featuring smooth surfaces with high reflectivity, used for converging, diverging, and redirecting beams of light. The working principle of mirrors is based on the law of reflection of light, which states that when light reflects from a smooth interface, the reflected ray, the incident ray, and the normal all lie in the same plane, and the angles of the reflected ray and the incident ray are equal. By precisely designing and manufacturing the surface shape and material of mirrors, precise control and focusing of light rays can be achieved.
Metal mirror: These are mirrors that utilize metal surfaces to reflect light or electromagnetic radiation.
Dielectric High-Reflection film Mirror: The working principle is based on the interference and reflection of light. By coating the surface of an optical element with one or more layers of dielectric films, interference superposition of light within a specific wavelength band occurs within the film layers, thereby enhancing the reflectivity. When light strikes the surface of the mirror, most of the light is reflected back, creating a high-reflection effect.