mechanicalscanning

Mechanicalscanning refers to methods for obtaining spatially resolved measurements or images by moving a sensor, light source, or optical element through a controlled mechanical path. Unlike electronic or computational beam steering alone, mechanicalscanning relies on physical motion to sample a scene or sample volume. Typical implementations include rotating polygon mirrors or rotating drums that redirect a laser beam across a target, galvanometer-based fast-turn mirrors that tilt about an axis, and translational stages that sweep the probe linearly or in a raster pattern. In many optical systems, a combination of a fast-scanning element (galvo) and a slower mechanical axis creates a two-dimensional scan trajectory.

Advantages include simple, robust light delivery and high instantaneous light collection along the scan line; limitations

Applications span laser scanning microscopy (confocal and two-photon) where a focused beam scans across a sample;

Historical note: before widespread electronic angular scanning, mechanical scanners were the primary method to sweep beams;