: The text covers measurements for fine micro/nano features, medium-sized manufactured goods (like aircraft engine parts), and large-scale objects such as buildings.
Dimensional metrology is the science of measuring physical dimensions like length, angle, flatness, and surface form. This handbook focuses on , which use light properties—such as interference, diffraction, and reflection—to perform non-contact measurements. Handbook of optical dimensional metrology
The handbook details several primary optical metrology techniques: Handbook of optical dimensional metrology - ResearchGate : The text covers measurements for fine micro/nano
The , edited by Kevin Harding , is a definitive technical resource that bridges the gap between theoretical optical physics and practical industrial measurement. It provides a comprehensive guide for engineers and quality specialists on leveraging light-based technologies to quantify the physical size, shape, and geometric features of objects across scales ranging from nanometers to kilometers. Core Concepts and Scope Key Technologies Covered
: Unlike traditional Coordinate Measuring Machines (CMMs) that use physical probes, optical systems are faster and generate dense "point clouds" of data without touching the part, which is critical for delicate or high-speed manufacturing environments. Key Technologies Covered