JiFeng-Keramik
Kernvorteile
Extreme thermal stability: CTE < 2×10⁻⁶/°C (20–400°C); thermal deformation only 1/50 of glass mirrors.
Ultra-high thermal conductivity: 200 W/m·K, eliminates thermal lens effect for kW-class lasers.
Ultra-precision optical surface: Ra ≤ 0.5 nm after polishing; reflectivity > 99.5% @ 1064 nm (coated).
Leicht & hohe Steifigkeit: Dichte 3.1 g/cm³; bending strength ≥ 400 MPa; specific stiffness (E/ρ) 4× that of fused silica.
Full environmental resistance: Radiation & acid/alkali resistant; operating temp: -200°C to 1650°C.
Anwendungen
- High-Energy Laser Systems
- Laser cutting focusing mirrors, fiber laser cavity mirrors, ultrafast laser chirp mirrors.
- Directed energy weapon mirrors, laser fusion beam steering mirrors.
- Luft- und Raumfahrt & Astronomy
- Space telescope primary/secondary mirrors, satellite multispectral imagers, deep space infrared lenses.
- Ground observatory mirrors, satellite laser communication mirrors.
- Halbleiter & Precision Manufacturing
- EUV lithography mirror substrates, wafer inspection interferometer mirrors.
- Infrared camera windows, high precision metrology reference mirrors.
- Research & Special Environments
- Synchrotron beamline mirrors, nuclear reactor neutron optics, high temp industrial monitoring mirrors.
Why Choose Our SiC Mirrors?
Leading materials & processes: CVD‑SiC for EUV‑level ultra‑precision; RB‑SiC for low‑cost large‑scale lightweight structures.
Full‑process quality control: Zygo interferometer surface testing, white‑light profiler roughness analysis, laser damage threshold testing (ISO 21254).
One‑stop customization: Aspherical, freeform, micro‑structured mirrors; blank‑polish‑coat‑assembly integration.
Global technical support: Optical design, thermal simulation, on‑orbit performance monitoring.
