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Main Author: Adams, Jordan M.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.20986
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author Adams, Jordan M.
author_facet Adams, Jordan M.
contents Optical vortex knots have been realized in monochromatic laser beams, but monochromatic fields are stationary and their topology is frozen. Here we show that knotted spatiotemporal vortices, whose phase singularities form closed loops in spacetime, undergo topology changing reconnections with free space propagation. When null lines of different vector components unlink, the electric spin, magnetic spin, linear momentum, and electromagnetic helicity densities, each built from a specific pair of field components, twist to exactly compensate the change in linking number. This compensation is enforced by the argument principle where the total for each component pair, combining mutual phase twist, geometric linking, and open-line threading, vanishes identically and remains exactly zero through all reconnection events.
format Preprint
id arxiv_https___arxiv_org_abs_2604_20986
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Knotted spacetime electromagnetic vortex unlinking and unknotting with vector and scalar reconnections and field twist compensation
Adams, Jordan M.
Optics
Optical vortex knots have been realized in monochromatic laser beams, but monochromatic fields are stationary and their topology is frozen. Here we show that knotted spatiotemporal vortices, whose phase singularities form closed loops in spacetime, undergo topology changing reconnections with free space propagation. When null lines of different vector components unlink, the electric spin, magnetic spin, linear momentum, and electromagnetic helicity densities, each built from a specific pair of field components, twist to exactly compensate the change in linking number. This compensation is enforced by the argument principle where the total for each component pair, combining mutual phase twist, geometric linking, and open-line threading, vanishes identically and remains exactly zero through all reconnection events.
title Knotted spacetime electromagnetic vortex unlinking and unknotting with vector and scalar reconnections and field twist compensation
topic Optics
url https://arxiv.org/abs/2604.20986