Optical Profilometry employs light to measure surface contours and roughness by analyzing the interaction between light waves and the surface under examination. It utilizes various principles such as ...

Optical methods for topography, also known as optical profilometry technique, use light to determine morphology, roughness and other details of a surface. Achieved a number of different ways, optical ...

This webinar provides an overview of how advanced optical profilometry can contribute to successful tribology tests, and allows one to extract critical data such as wear rate, life time, time to ...

Three-dimensional measurement and profilometry techniques have become essential tools in a broad range of scientific and industrial applications, from precision engineering to biomedical imaging. At ...

Sensofar has developed a new technique for characterising the evolution of a sample’s surface topography with temperature using the S neox 3D optical profiler and Linnik interferometer coupled with ...

A new publication from Opto-Electronic Advances; DOI https://doi.org/10.29026/oea.2022.210021 discusses how deep learning makes single-shot, high-resolution ...

The ability to manage surface quality is critical in many manufacturing industries because surfaces play a major role in mechanical failures, including catastrophic wear, cracking and deterioration.

Ultrasound is an indispensable tool for the life sciences and various industrial applications due to its non-destructive, high contrast, and high resolution qualities. A persistent challenge over the ...

3D Optical Profilometry has been utilised by the NucleUS team to evaluate the surface finish of stainless samples and determine roughness parameters to assess the suitability of materials for nuclear ...

Sensofar has developed a new technique for characterising the evolution of a sample’s surface topography with temperature using the S neox 3D optical profiler and Linnik interferometer coupled with ...