interferometriaan

Interferometriaan, or interferometry, is a family of techniques that use the interference of waves to measure differences in optical path length, wavelength, or the spatial structure of light, sound, or matter waves. By combining two or more coherent wavefronts, interferometry can translate phase information into observable intensity variations, enabling precision metrology and high-resolution imaging.

The core idea is to split a wave, let the parts travel along different routes, and then

Historically, Young demonstrated light interference in 1801, and Albert A. Michelson refined interferometry for precision measurements

Optical interferometers include the Michelson, Mach–Zehnder, and Fabry–Pérot configurations, used for surface profiling, spectroscopy, and phase

Practical use requires stable optical paths, coherent sources, and careful calibration. Environmental vibrations, atmospheric turbulence, and