These high-purity quartz glass plates are precision-engineered from ultra-pure silicon dioxide (SiO₂ ≥ 99.99%) using advanced melting and rapid cooling techniques. The resulting fused silica exhibits exceptional optical clarity, thermal stability, and chemical resistance. Based on purity and optical performance, these plates are classified into three grades: JGS1, JGS2, and JGS3.
Optical Grades
JGS1 – Far-Ultraviolet Optical Fused Silica
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High hydroxyl content (~2000 ppm)
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Exceptional UV transmittance, exceeding 90% at 185 nm
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Suitable for 185–2500 nm wavelength range
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Applications: DUV lithography lenses, space telescope mirrors, UV laser collimators
JGS2 – Ultraviolet Optical Fused Silica
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Manufactured from crystalline raw materials via gas refining
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Metal impurities at tens of ppm, hydroxyl content 100–200 ppm
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Transmission range 220–2500 nm
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Applications: Consumer optics such as camera lenses, projector prisms, microscope objectives
JGS3 – Infrared Optical Fused Silica
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Produced from high-purity quartz sand or crystalline materials via vacuum electrical melting
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Minimal hydroxyl content and negligible bubbles
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Infrared transmittance >85%, suitable for 260–3500 nm wavelength range
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Applications: IR thermal imaging windows, CO₂ laser focusing mirrors, missile infrared seeker domes
Klíčové vlastnosti
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Tepelná stabilita: Softening point 1683°C, annealing point 1215°C, strain point 1120°C
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Precision Processing: Multi-stage gradient annealing reduces internal stress; magnetorheological polishing achieves Ra <0.5 nm
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Coating Options: Anti-reflective (AR), high-reflection (HR), and corrosion-resistant coatings
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Chemická odolnost: Highly resistant to water and most acids (except HF)
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Mechanical Properties: Mohs hardness 5.5–6.5, Young’s modulus 7.2×10¹⁰ Pa
Aplikace
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High-End Optical Systems: DUV lithography lenses, UV collimators, space telescope mirrors
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Semiconductor Manufacturing: Photomask substrates, wafer processing carriers, high-temperature diffusion furnace components
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Laser Technology: Nd:YAG laser mirrors, CO₂ laser transmission components
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Letectví a kosmonautika: Spacecraft optical windows, hypersonic missile IR seeker domes
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Special Lighting: High-purity UV lamps, mercury lamp housings
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Scientific Research: Synchrotron beamline windows, Cherenkov particle detectors
Standard Specifications
| Majetek | Hodnota |
|---|---|
| Hustota | 2.20 g/cm³ |
| Abbe Number | 67.6 |
| Refractive Index (588 nm) | 1.4586 |
| Tvrdost | 5.5–6.5 Mohs |
| Design Tensile Strength | 4.8×10⁷ Pa |
| Design Compressive Strength | >1.1×10⁹ Pa |
| Youngův modul | 7.2×10¹⁰ Pa |
| Poisson’s Ratio | 0.17 |
| Koeficient tepelné roztažnosti | 5.5×10⁻⁷ cm/cm·℃ |
| Tepelná vodivost | 1.4 W/m·℃ |
| Bod měknutí | 1683℃ |
| Bod žíhání | 1215℃ |
| Bod napětí | 1120℃ |
| Electrical Resistivity | 7×10⁷ ohm·cm (350℃) |
| Chemická stabilita | Highly resistant to water and acids except HF |
ČASTO KLADENÉ DOTAZY
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What are the differences between JGS1, JGS2, and JGS3?
JGS1 offers >90% UV transmission at 185 nm with 2000 ppm OH, JGS2 provides 220–2500 nm transmission with 100–200 ppm OH, and JGS3 delivers >85% IR transmission with near-zero OH content. -
Which grade is suitable for UV laser applications?
JGS1 is ideal for UV lasers due to its >90% transmittance at 185 nm and high laser damage threshold of 15 J/cm².
Recenze
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