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Hauptverfasser: Bounab, Mohamed Oussama, Furgeaud, Clarisse, Cueff, Sébastien, Berguiga, Lotfi, Bachelet, Romain, Bouras, Mohamed, Pedesseau, Laurent, Even, Jacky, Largeau, Ludovic, Saint-Girons, Guillaume
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2508.18862
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author Bounab, Mohamed Oussama
Furgeaud, Clarisse
Cueff, Sébastien
Berguiga, Lotfi
Bachelet, Romain
Bouras, Mohamed
Pedesseau, Laurent
Even, Jacky
Largeau, Ludovic
Saint-Girons, Guillaume
author_facet Bounab, Mohamed Oussama
Furgeaud, Clarisse
Cueff, Sébastien
Berguiga, Lotfi
Bachelet, Romain
Bouras, Mohamed
Pedesseau, Laurent
Even, Jacky
Largeau, Ludovic
Saint-Girons, Guillaume
contents Optical anisotropy is a key property for numerous photonic devices. However, bulk anisotropic materials suitable for such applications remain relatively scarse and are often challenging to synthesize as thin films. Additionally, the optical losses as well as the complex structuration of anisotropic metamaterials hinder their integrability in photonic devices. Based on ellipsometry measurements coupled with reflectance, it is demonstrated here that Ruddlesden-Popper (RP) SrO(SrTiO 3 ) N phases (STO-RP N ), epitaxial thin films composed of a SrTiO 3 lattice periodically interrupted by one SrO atomic plane every N unit cells, exhibit pronounced dichroism and birefringence over a broad spectral range. Notably, this anisotropy is tunable by adjusting the RP order N. In contrast to most other anisotropic materials reported in the literature, STO-RP N thin layers can be fabricated using industry-standard growth processes. As it can be epitaxially grown on Si and GaAs using SrTiO 3 templates, the work paves the way for their compact integration on these photonic platforms.
format Preprint
id arxiv_https___arxiv_org_abs_2508_18862
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Strong and Engineerable Optical Anisotropy in Easily Integrable Epitaxial SrO(SrTiO 3 ) N Ruddlesden--Popper Thin Layers
Bounab, Mohamed Oussama
Furgeaud, Clarisse
Cueff, Sébastien
Berguiga, Lotfi
Bachelet, Romain
Bouras, Mohamed
Pedesseau, Laurent
Even, Jacky
Largeau, Ludovic
Saint-Girons, Guillaume
Materials Science
Optical anisotropy is a key property for numerous photonic devices. However, bulk anisotropic materials suitable for such applications remain relatively scarse and are often challenging to synthesize as thin films. Additionally, the optical losses as well as the complex structuration of anisotropic metamaterials hinder their integrability in photonic devices. Based on ellipsometry measurements coupled with reflectance, it is demonstrated here that Ruddlesden-Popper (RP) SrO(SrTiO 3 ) N phases (STO-RP N ), epitaxial thin films composed of a SrTiO 3 lattice periodically interrupted by one SrO atomic plane every N unit cells, exhibit pronounced dichroism and birefringence over a broad spectral range. Notably, this anisotropy is tunable by adjusting the RP order N. In contrast to most other anisotropic materials reported in the literature, STO-RP N thin layers can be fabricated using industry-standard growth processes. As it can be epitaxially grown on Si and GaAs using SrTiO 3 templates, the work paves the way for their compact integration on these photonic platforms.
title Strong and Engineerable Optical Anisotropy in Easily Integrable Epitaxial SrO(SrTiO 3 ) N Ruddlesden--Popper Thin Layers
topic Materials Science
url https://arxiv.org/abs/2508.18862