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Paper detail

Improving performance of single-pass real-time holographic projection

This work describes a novel approach to time-multiplexed holographic projection on binary phase devices. Unlike other time-multiplexed algorithms where each frame is the inverse transform of independently modified target images, Single-Transform Time-Multiplexed (STTM) hologram generation produces multiple sub-frames from a single inverse transform. Uniformly spacing complex rotations on the diffraction field then allows the emulation of devices containing 2^N modulation levels on binary devices by using N sub-frames. In comparison to One-Step Phase Retrieval (OSPR), STTM produces lower mean squared error for up to N = 5 than the equivalent number of OSPR sub-frames with a generation time of 1/N of the equivalent OSPR frame. A mathematical justification of the STTM approach is presented and a hybrid approach is introduced allowing STTM to be used in conjunction with OSPR in order to combine performance benefits.

preprint2020arXivOpen access
Peter J. ChristopherRalf MouthaanVamsee BheemireddyTimothy D. Wilkinson
eess.IVphysics.optics
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Peter J. ChristopherRalf MouthaanVamsee BheemireddyTimothy D. Wilkinson

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