Optical Surface Roughness Process

The optical surface roughness process is a high-precision method for evaluating surface texture, roughness, and topography using non-contact optical measurement. Atometrics develops advanced systems that integrate optical profilometry, interferometry, and focus variation to provide detailed 3D surface data with high accuracy.

High-Precision Non-Contact Measurement

Atometrics optical surface roughness processes use white light interferometry and confocal microscopy to measure micro-scale surface features without contacting the sample. This ensures delicate or soft surfaces remain undamaged while delivering reproducible, nanometer-level results.

Applications

Our optical surface roughness processes are widely applied in:

• Semiconductor wafer and MEMS device surface evaluation
• Optical lenses, thin film, and coating analysis
• Precision machined components and microfabrication inspection
• Automotive and aerospace surface quality control
• Material science research and development laboratories

Advantages of Atometrics Optical Surface Roughness Process

• Non-contact optical 3D surface measurement with sub-micron to nanometer precision
• Automated scanning and analysis for high repeatability
• Comprehensive roughness and texture parameters (Ra, Rq, RMS, Rz, Sa, Sq)
• Supports various materials and surface geometries
• User-friendly software interface for visualization, reporting, and data management

Why Choose Atometrics

Atometrics specializes in high-precision measuring instruments, combining advanced optics, imaging sensors, and intelligent software. Our optical surface roughness processes provide reliable, accurate, and repeatable results, supporting quality control, research, and industrial process optimization.

Atometrics – High-Precision Optical Surface Roughness Processes for Advanced Surface Metrology and Quality Control.