Anti-reflective Coating Optical Glass Substrates For Inspection
Systems
Material: Base Substrate: High-precision borosilicate
glass (e.g., Borofloat 33) or fused silica, selected for
exceptional flatness, thermal stability, and chemical resistance. Coating Technology: Multi-layer dielectric
coatings (e.g., MgF₂, SiO₂, Ta₂O₅) applied via precision
magnetron sputtering or vapor deposition. Design Types: Customizable as broadband
AR (visible-NIR spectrum)
or V-coating (single-wavelength optimization).
Key Properties: Ultra-Low Reflectance: Achieves <0.5% surface
reflectance (vs. 4-8% for uncoated glass), maximizing light
throughput. High Transmission Efficiency: Delivers >99.5% light
transmission in target wavelengths, minimizing signal loss. Angular Stability: Maintains performance across 0-45°
incidence angles critical for oblique imaging. Environmental Durability: Resists delamination, humidity, and
UV degradation under continuous operation. Surface Quality: Sub-Ångstrom roughness (<5Å Ra) prevents
light scattering artifacts. Thermal & Chemical Resilience: Withstands cleaning
solvents and thermal cycling (-60°C to +300°C).
Primary Function: To eliminate stray reflections and maximize
contrast in high-precision optical inspection systems. Minimizes ghost images and flare caused by surface
reflections. Enhances signal-to-noise ratio for accurate defect detection. Preserves light intensity across complex optical paths.
Main Applications in Inspection Systems: Semiconductor Metrology: Automated Optical Inspection (AOI): Biomedical Imaging: Industrial Vision Systems: Aerospace NDT: Photonics Testing:
In essence: Anti-reflective Coating Optical Glass Substrates are precision-engineered components that solve reflection-induced
accuracy issues in critical inspection systems. By applying
advanced multi-layer dielectric coatings to ultra-flat borosilicate
or fused silica substrates, they achieve near-invisible surface
performance (<0.5% reflectance), enabling defect detection at
micron/sub-micron scales. These substrates directly enhance the
reliability of semiconductor metrology, AOI equipment, and
biomedical imaging tools where every photon matters.
| Name | Glass disc, Glass wafer, Glass substrate, Sight glass |
| ofloat | | Diameter Tolerance | +0/-0.2 mm | | Thickness Tolerance | +/-0.2 mm | | Processed | By Cutting,Grinding, Polishing | | Working temperature | Resisting high temperature shock | | Surface Quality | 80/50,60/40,40/20 | | Material Quality | No scratches and air bubble | | Transmission | >90% for visible light | | Chamfer | 0.1-0.5 mm x 45 degree | | Surface Coating | Available | | Usage | Photography, Lighting system, industrial area. |
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