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Hauptverfasser: Townsend, Jonah, Picinini, Enzo Conceição, de Sousa, Rogério
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2605.04353
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author Townsend, Jonah
Picinini, Enzo Conceição
de Sousa, Rogério
author_facet Townsend, Jonah
Picinini, Enzo Conceição
de Sousa, Rogério
contents Ferroelectric materials have colossal optical nonlinearities, but their integration into quantum photonic chips is made challenging by the additional loss mechanisms that they introduce. Here we present a perturbative theory that expresses non-absorptive (elastic) photon scattering-induced loss as a functional of a general spectral density for spatial fluctuations of electric permittivity. We apply the theory to calculations of attenuation coefficients $α$ in slab waveguides in order to compare two distinct loss mechanisms: Interface roughness and ferroelectric domain disorder. our theory can account for realistic roughness without special symmetry considerations, and it demonstrates how to use electron microscoopy images of ferroelectric domains to obtain explicit numerical predictions for $α$. Loss is maximum when the mean domain length is comparable to the wavelength of light (Mie regime), indicating that, for telecom wavelengths, sub-micron domains (Rayleigh regime) or single domain waveguides provide equivalent strategies for reducing loss.
format Preprint
id arxiv_https___arxiv_org_abs_2605_04353
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Scattering-Induced Loss in Ferroelectric Photonic Devices
Townsend, Jonah
Picinini, Enzo Conceição
de Sousa, Rogério
Optics
Materials Science
Quantum Physics
Ferroelectric materials have colossal optical nonlinearities, but their integration into quantum photonic chips is made challenging by the additional loss mechanisms that they introduce. Here we present a perturbative theory that expresses non-absorptive (elastic) photon scattering-induced loss as a functional of a general spectral density for spatial fluctuations of electric permittivity. We apply the theory to calculations of attenuation coefficients $α$ in slab waveguides in order to compare two distinct loss mechanisms: Interface roughness and ferroelectric domain disorder. our theory can account for realistic roughness without special symmetry considerations, and it demonstrates how to use electron microscoopy images of ferroelectric domains to obtain explicit numerical predictions for $α$. Loss is maximum when the mean domain length is comparable to the wavelength of light (Mie regime), indicating that, for telecom wavelengths, sub-micron domains (Rayleigh regime) or single domain waveguides provide equivalent strategies for reducing loss.
title Scattering-Induced Loss in Ferroelectric Photonic Devices
topic Optics
Materials Science
Quantum Physics
url https://arxiv.org/abs/2605.04353