Binary optical elements using spatial light modulators

TL;DR: In this paper, it was shown that the imaging performance of a variable focus optical system based on a single, binary, phase-only spatial light modulator (SLM) can be improved in important respects by combining it with a fixed phase mask with either two or four phase levels separated by π /2.

TL;DR: A multiple imaging capability of replicated binary Fresnel phase-encoded lenses written on programmable spatial light modulators (SLMs) that produce a large number of equally intense replica images from either an external object or from a pattern which is encoded onto the SLM along with the phase- encoded lens.

TL;DR: Computer-designed linear and circular zone plates are considered that utilize a pi ;-phase jump in order to create destructive interference in the focus to achieve significant decrease of the black spot diameter.

TL;DR: Two-dimensional, binary phase-only diffraction gratings written on a programmable magnetooptic spatial light modulator can achieve programmable weighted interconnects between the source and two output locations as well as a fan-out capability to as many as 128 separate output locations.

TL;DR: Anamorphic optical systems with different horizontal and vertical magnifications are constructed by using programmable anamorphic lenses written on a magneto-optic spatial light modulator.