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Main Authors: Noetinger, Guillaume, Tuuva, Tim, Fleury, Romain
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.09440
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author Noetinger, Guillaume
Tuuva, Tim
Fleury, Romain
author_facet Noetinger, Guillaume
Tuuva, Tim
Fleury, Romain
contents The conjugation of multiple spatial light modulators (SLMs) enables the construction of optical diffractive neural networks (DNNs). To accelerate training, which is limited by the low refresh rate of SLMs, spatial multiplexing of the input data across different spatial channels is possible, maximizing the number of available spatial degrees of freedom (DoFs). Precise alignment is required in order to ensure that the same physical operation is performed across each channel and thus the learning operation of the network. We present a semi-automatic procedure for this experimentally challenging alignment resulting in a pixel-level conjugation. It is scalable to any number of SLMs and may be useful in wavefront shaping setups where precise conjugation of SLMs is required, e.g. for the control of optical waves in phase and amplitude. The resulting setup functions as an optical DNN capable of processing hundreds of inputs simultaneously, thereby reducing training times and experimental noise through spatial averaging. We further present a characterization of the setup and an alignment method.
format Preprint
id arxiv_https___arxiv_org_abs_2511_09440
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Tutorial: A practical guide to the alignment of defocused spatial light modulators for fast diffractive neural networks
Noetinger, Guillaume
Tuuva, Tim
Fleury, Romain
Optics
The conjugation of multiple spatial light modulators (SLMs) enables the construction of optical diffractive neural networks (DNNs). To accelerate training, which is limited by the low refresh rate of SLMs, spatial multiplexing of the input data across different spatial channels is possible, maximizing the number of available spatial degrees of freedom (DoFs). Precise alignment is required in order to ensure that the same physical operation is performed across each channel and thus the learning operation of the network. We present a semi-automatic procedure for this experimentally challenging alignment resulting in a pixel-level conjugation. It is scalable to any number of SLMs and may be useful in wavefront shaping setups where precise conjugation of SLMs is required, e.g. for the control of optical waves in phase and amplitude. The resulting setup functions as an optical DNN capable of processing hundreds of inputs simultaneously, thereby reducing training times and experimental noise through spatial averaging. We further present a characterization of the setup and an alignment method.
title Tutorial: A practical guide to the alignment of defocused spatial light modulators for fast diffractive neural networks
topic Optics
url https://arxiv.org/abs/2511.09440