Evaluation of disparate laser beam deflection technologies by means of number and rate of resolvable spots.

We introduce a method to objectively evaluate systems of differing beam deflection technologies that commonly are described by disparate technical specifications. Using our new approach based on resolvable spots we will compare commercially available random-access beam deflection technologies, namely galvanometer scanners, piezo scanners, MEMS scanners, acousto-optic deflectors, and electro-optic deflectors.

Beam shaping and high-speed, cylinder-lens-free beam guiding using acousto-optical deflectors without additional compensation optics.

Using acousto-optical deflectors at high deflection speeds via acoustical frequency chirping induces astigmatism, deforming the laser beam in an unfavorable way. Within the paper, we present a method to prevent this effect for an ultrashort pulsed laser beam via acoustical frequency jumps synchronized to the pulse-to-pulse pause. We also demonstrate and give a method to calculate beam shaping capability of acousto-optical deflectors via arbitrary spatial frequency developments during ultrashort laser pulse transit through the deflector.