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Hauptverfasser: Gadeyne, Titouan, Ruchon, Thierry
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2506.13535
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author Gadeyne, Titouan
Ruchon, Thierry
author_facet Gadeyne, Titouan
Ruchon, Thierry
contents An ongoing debate surrounding the intrinsic transverse orbital angular momentum (OAM) attributed to spatiotemporal optical vortex (STOV) light pulses has raised the energy and photon-density centroids as two alternative frameworks to define the center of a free electromagnetic wavepacket. We herein derive, within a single formalism, lowest-order expressions for the positions and velocities of both centroids, directly applicable to an arbitrary scalar, near-paraxial and quasi-monochromatic pulse envelope formulated in space-time. Examining pulses with structures including temporal chirp, wavefront rotation, Gaussian-type STOVs and tilted lobulated profiles, we illustrate general principles underlying the shifts and propagation dynamics of the two centroids, and discuss how these properties underpin the value and conservation of intrinsic OAM referenced to either centroid. Finally, despite widespread use of the notion of intrinsic OAM "per photon", we argue that in neither framework could individual STOV photons be said to carry a well-defined quantum of intrinsic transverse OAM, as such quantities do not write as expectation values of a single operator for which STOV states could form a basis of orthogonal eigenmodes. This contrasts with the well-established quantization scheme for the total longitudinal OAM of light in spatial vortex beams, bearing implications for the interpretation of future experiments involving STOV pulses in quantum optics, nonlinear wave-mixing or light-matter interactions.
format Preprint
id arxiv_https___arxiv_org_abs_2506_13535
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Energy and photon centroids of spatiotemporal light pulses and consequences for their intrinsic orbital angular momentum
Gadeyne, Titouan
Ruchon, Thierry
Optics
An ongoing debate surrounding the intrinsic transverse orbital angular momentum (OAM) attributed to spatiotemporal optical vortex (STOV) light pulses has raised the energy and photon-density centroids as two alternative frameworks to define the center of a free electromagnetic wavepacket. We herein derive, within a single formalism, lowest-order expressions for the positions and velocities of both centroids, directly applicable to an arbitrary scalar, near-paraxial and quasi-monochromatic pulse envelope formulated in space-time. Examining pulses with structures including temporal chirp, wavefront rotation, Gaussian-type STOVs and tilted lobulated profiles, we illustrate general principles underlying the shifts and propagation dynamics of the two centroids, and discuss how these properties underpin the value and conservation of intrinsic OAM referenced to either centroid. Finally, despite widespread use of the notion of intrinsic OAM "per photon", we argue that in neither framework could individual STOV photons be said to carry a well-defined quantum of intrinsic transverse OAM, as such quantities do not write as expectation values of a single operator for which STOV states could form a basis of orthogonal eigenmodes. This contrasts with the well-established quantization scheme for the total longitudinal OAM of light in spatial vortex beams, bearing implications for the interpretation of future experiments involving STOV pulses in quantum optics, nonlinear wave-mixing or light-matter interactions.
title Energy and photon centroids of spatiotemporal light pulses and consequences for their intrinsic orbital angular momentum
topic Optics
url https://arxiv.org/abs/2506.13535