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Optical Field

Fluorophlogopite mica (also known as artificial mica, synthetic mica large crystal), belongs to the silicate artificial mica crystal, is in the high temperature state of 1500 ℃, through strict process conditions and material ratio, in the platinum crucible smelting mica single crystal.Optical Field Fluorophlogopite, a type of mica mineral, is gaining attention for its potential applications in the field of optics. Its unique combination of properties, including high transparency, low birefringence, and excellent thermal stability, makes it an intriguing candidate for optical components and systems.

Commodity name： Optical Field

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Fluorophlogopite mica (also known as artificial mica, synthetic mica large crystal), belongs to the silicate artificial mica crystal, is in the high temperature state of 1500 ℃, through strict process conditions and material ratio, in the platinum crucible smelting mica single crystal. Its chemical formula is KMg3(AlSi3O10)F2, its melting point is 1375 ℃, and it can be used for a long time at a temperature of up to 1100 ℃. Surface roughness <0.6 nm; Colorless and transparent; It does not react with strong acid and alkali;

The Fluorophlogopite mica is parallel extinction, positive extension, secondary diaphragm interference color, secondary crystal negative light, optical axis angle of about 10 °. Because the Fluorophlogopite mica contains less impurities, from ultraviolet to infrared, its light transmittance is relatively high. For ultraviolet light, natural mica is basically impermeable, and Fluorophlogopite mica can penetrate to nearly 0.2 μm. The natural mica has a distinct absorption peak at 2.75 μm, but the Fluorophlogopite mica does not, which is an important sign of the substitution of Fˉ for (OH)ˉ. It can be seen that Fluorophlogopite mica is also a good light transmitting material from ultraviolet (0.2 μm) to infrared (5 μm).

Optical Field Fluorophlogopite, a type of mica mineral, is gaining attention for its potential applications in the field of optics. Its unique combination of properties, including high transparency, low birefringence, and excellent thermal stability, makes it an intriguing candidate for optical components and systems. Fluorophlogopite's ability to withstand high temperatures and harsh environmental conditions while maintaining optical clarity and stability positions it as a promising material for use in lenses, prisms, and other optical devices. Ongoing research aims to explore the specific ways in which fluorophlogopite can contribute to advancing optical technologies, potentially leading to improved performance and reliability in various optical applications.