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Main Author: Janer, Carlos L.
Format: Preprint
Published: 2022
Subjects:
Online Access:https://arxiv.org/abs/2209.07855
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author Janer, Carlos L.
author_facet Janer, Carlos L.
contents In this paper it is shown that the correct mathematical framework of combined polarization mode dispersion and polarization dependent losses (combined PMD-PDL effects or impairments) in optical fibers is the irreducible spinor representation of the extended Lorentz Group. Combined PMD-PDL effects are shown to be formally identical to Lorentz Transformations acting on spin 1/2 zero mass particles. Since there are two different irreducible spinor representations of the restricted Lorentz Group, there must also exist two kinds of states of polarizations (SOPs) that are relevant in the description of PMD-PDL effects. The optical process that allows to convert one kind into the other is identified as optical phase conjugation. Optical phase conjugation plays the same role as the time inversion operator in the Lorentz Group representation theory. A practical and extremely important example of utility of these ideas, a technique that significantly reduces the PMD-PDL induced impairments, is presented. This technique allows to cancel the PDL part of the combined PMD-PDL impairments in a very simple and straightforward way.
format Preprint
id arxiv_https___arxiv_org_abs_2209_07855
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle On the mathematical description of combined PMD PDL effects in optical communications and how their induced impairments can be minimized
Janer, Carlos L.
Optics
Quantum Physics
In this paper it is shown that the correct mathematical framework of combined polarization mode dispersion and polarization dependent losses (combined PMD-PDL effects or impairments) in optical fibers is the irreducible spinor representation of the extended Lorentz Group. Combined PMD-PDL effects are shown to be formally identical to Lorentz Transformations acting on spin 1/2 zero mass particles. Since there are two different irreducible spinor representations of the restricted Lorentz Group, there must also exist two kinds of states of polarizations (SOPs) that are relevant in the description of PMD-PDL effects. The optical process that allows to convert one kind into the other is identified as optical phase conjugation. Optical phase conjugation plays the same role as the time inversion operator in the Lorentz Group representation theory. A practical and extremely important example of utility of these ideas, a technique that significantly reduces the PMD-PDL induced impairments, is presented. This technique allows to cancel the PDL part of the combined PMD-PDL impairments in a very simple and straightforward way.
title On the mathematical description of combined PMD PDL effects in optical communications and how their induced impairments can be minimized
topic Optics
Quantum Physics
url https://arxiv.org/abs/2209.07855