Publication: The role of modes in nonlinear fiber optical computing
Program
KU Authors
Co-Authors
Editor & Affiliation
Compiler & Affiliation
Translator
Other Contributor
Date
Language
eng
Type
Embargo Status
No
Journal Title
Journal ISSN
Volume Title
Alternative Title
Abstract
We investigate the nonlinear propagation of light in graded-index multimode fiber, utilizing it as an optical computing unit, and quantify how it employs waveguide modes to process information. Using a time-dependent spatiotemporal propagation model with modal decomposition, we evaluate several benchmark regression and classification tasks and study the modal content of the generated speckles, which couples with a simple digital layer to perform optical computing. Analysis of modal entropy and energy-based mode counts reveals that effective computation is confined to a low-dimensional modal subspace, whose identity depends on the task and propagation regime. This also sets a trade-off between modal richness and nonlinear beam selfcleaning. These results establish modal statistics as practical design metrics for fiber-based optical computers. (c) 2026 Optica Publishing Group. All rights, including for text and data mining (TDM), Artificial Intelligence (AI) training, and similar technologies, are reserved.
Source
Publisher
Optica Publishing Group
Subject
Optics
Citation
Has Part
Source
Optics Letters
Book Series Title
Edition
DOI
10.1364/OL.587761
item.page.datauri
Link
Rights
N/A
Copyrights Note
Creative Commons license
Except where otherwised noted, this item's license is described as N/A
