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Main Authors: Janz, Siegfried, Wang, Shurui, Ma, Rubin, Lapointe, Jean, Vachon, Martin
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.20731
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author Janz, Siegfried
Wang, Shurui
Ma, Rubin
Lapointe, Jean
Vachon, Martin
author_facet Janz, Siegfried
Wang, Shurui
Ma, Rubin
Lapointe, Jean
Vachon, Martin
contents Silicon photonic components based on freely propagating beams in 220 nm thick Si slab waveguides are described and characterized. Examples include optical relays, waveguide crossings, couplers, and resonators with wavelength independent Q factors. The unconfined beams are manipulated using reflecting mirrors etched into the Si layer, which operate in the total internal reflection (TIR) regime. This approach eliminates the back-scattering and waveguide loss arising from sidewall roughness in single mode waveguides, reduces sensitivity to small dimensional variations, and reduces light induced self-heating. Although the detailed behavior of TIR at curved waveguide side wall mirror is too complex to capture by simple models, the experimental results are found to be in qualitative agreement with simple analytical calculations based on Gaussian beam theory and effective index approximations.
format Preprint
id arxiv_https___arxiv_org_abs_2512_20731
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Free space optics in two dimensions: optical elements for silicon photonics without lateral confinement
Janz, Siegfried
Wang, Shurui
Ma, Rubin
Lapointe, Jean
Vachon, Martin
Optics
Silicon photonic components based on freely propagating beams in 220 nm thick Si slab waveguides are described and characterized. Examples include optical relays, waveguide crossings, couplers, and resonators with wavelength independent Q factors. The unconfined beams are manipulated using reflecting mirrors etched into the Si layer, which operate in the total internal reflection (TIR) regime. This approach eliminates the back-scattering and waveguide loss arising from sidewall roughness in single mode waveguides, reduces sensitivity to small dimensional variations, and reduces light induced self-heating. Although the detailed behavior of TIR at curved waveguide side wall mirror is too complex to capture by simple models, the experimental results are found to be in qualitative agreement with simple analytical calculations based on Gaussian beam theory and effective index approximations.
title Free space optics in two dimensions: optical elements for silicon photonics without lateral confinement
topic Optics
url https://arxiv.org/abs/2512.20731