The continuum limit of k-space cavity angular momentum

The continuum limit of k-space cavity angular momentum

A wavepacket (electromagnetic or otherwise) within an isotropic and homogeneous space can be quantized on a regular lattice of discrete k-vectors. Each k-vector is associated with a temporal frequency ω; together, k and ω represent a propagating plane wave. While the total energy and total linear mo...

Full description

Saved in:
Bibliographic Details
Main Authors: Per Kristen Jakobsen, Masud Mansuripur
Format: Article
Language:English
Published: AIP Publishing LLC 2025-05-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/5.0260162
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:A wavepacket (electromagnetic or otherwise) within an isotropic and homogeneous space can be quantized on a regular lattice of discrete k-vectors. Each k-vector is associated with a temporal frequency ω; together, k and ω represent a propagating plane wave. While the total energy and total linear momentum of the packet can be readily apportioned among its individual plane wave constituents, the same cannot be said about the packet’s total angular momentum. One can show, in the case of a reasonably smooth (i.e., continuous and differentiable) wavepacket, that the overall angular momentum is expressible as an integral over the k-space continuum involving only the Fourier transform of the field and its k-space gradients. In this sense, the angular momentum is a property not of individual plane waves, but of plane wave pairs that are adjacent neighbors in the space inhabited by the k-vectors and it can be said to be localized in the k-space. Strange as it might seem, this hallmark property of angular momentum does not automatically emerge from an analysis of a discretized k-space. In fact, the discrete analysis shows the angular momentum to be distributed among k-vectors that pair not only with nearby k-vectors but also with those that are far away. The goal of the present paper is to resolve the discrepancy between the discrete calculations and those performed on the continuum, by establishing the conditions under which the highly nonlocal sum over plane wave pairs in the discrete k-space approaches the localized distribution of angular momentum in continuum k-space.
ISSN:2158-3226

Similar Items