A reconfigurable multi-channel on-chip photonic filter for programmable optical frequency division

A reconfigurable multi-channel on-chip photonic filter for programmable optical frequency division

Recent advancements have broadened the application of photon filters based on Bragg gratings within optical communication networks and optical input/output interfaces. Traditional gratings, however, suffer from a fixed refractive index modulation distribution once manufactured, constraining their ad...

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Main Authors: Zhu Simeng, Yuan Bocheng, Fan Yizhe, Al-Rubaiee Mohanad, Sun Xiao, Li Zhibo, Hezarfen Ahmet Seckin, Kelly Anthony E., Marsh John H., Hou Lianping
Format: Article
Language:English
Published: De Gruyter 2025-06-01
Series:Nanophotonics
Subjects:
microwave photonics
reconfigurable filter
sampled bragg grating
reconstructed equivalent chirp technology
programmable frequency division
Online Access:https://doi.org/10.1515/nanoph-2025-0119
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author Zhu Simeng
Yuan Bocheng
Fan Yizhe
Al-Rubaiee Mohanad
Sun Xiao
Li Zhibo
Hezarfen Ahmet Seckin
Kelly Anthony E.
Marsh John H.
Hou Lianping
author_facet Zhu Simeng
Yuan Bocheng
Fan Yizhe
Al-Rubaiee Mohanad
Sun Xiao
Li Zhibo
Hezarfen Ahmet Seckin
Kelly Anthony E.
Marsh John H.
Hou Lianping
author_sort Zhu Simeng
collection DOAJ
description Recent advancements have broadened the application of photon filters based on Bragg gratings within optical communication networks and optical input/output interfaces. Traditional gratings, however, suffer from a fixed refractive index modulation distribution once manufactured, constraining their adaptability and flexibility. This study introduces a reconfigurable multi-channel photon filter on a silicon nitride on insulator platform. The filter incorporates an equivalent linearly chirped four-phase-shifted sampled Bragg grating with micro-heaters to enable thermo-optic tuning, facilitating programmable control over transmission spectral features. Experimental outcomes indicate the filter’s capability to seamlessly transition among single, dual, and quad-band configurations, as well as a band-stop mode, with independent tuning of each band. Moreover, optical frequency division multiplexing experiments using a 50 GHz semiconductor mode-locked laser have affirmed the filter’s tunability. In quad-band mode, band separations of 50, 100, and 150 GHz are achievable; in dual and single-band modes, band intervals extend from 150 to 250 GHz, allowing for precise single-wavelength selection. Featuring high tunability, minimal insertion losses, and superior signal side-mode suppression ratio, this filter structure supports the integration of programmable photonic devices into space optical communications, photonic integrated networks, and elastic optical networks.
format Article
id doaj-art-f00a8fc7be3949ec9a10a2e0ef93b3d4
institution Kabale University
issn 2192-8614
language English
publishDate 2025-06-01
publisher De Gruyter
record_format Article
series Nanophotonics
spelling doaj-art-f00a8fc7be3949ec9a10a2e0ef93b3d42025-08-20T03:41:43ZengDe GruyterNanophotonics2192-86142025-06-0114152619263110.1515/nanoph-2025-0119A reconfigurable multi-channel on-chip photonic filter for programmable optical frequency divisionZhu Simeng0Yuan Bocheng1Fan Yizhe2Al-Rubaiee Mohanad3Sun Xiao4Li Zhibo5Hezarfen Ahmet Seckin6Kelly Anthony E.7Marsh John H.8Hou Lianping93526University of Glasgow, GlasgowG12 8QQ, UK3526University of Glasgow, GlasgowG12 8QQ, UK3526University of Glasgow, GlasgowG12 8QQ, UK3526University of Glasgow, GlasgowG12 8QQ, UK3526University of Glasgow, GlasgowG12 8QQ, UK3526University of Glasgow, GlasgowG12 8QQ, UK3526University of Glasgow, GlasgowG12 8QQ, UK3526University of Glasgow, GlasgowG12 8QQ, UK3526University of Glasgow, GlasgowG12 8QQ, UK3526University of Glasgow, GlasgowG12 8QQ, UKRecent advancements have broadened the application of photon filters based on Bragg gratings within optical communication networks and optical input/output interfaces. Traditional gratings, however, suffer from a fixed refractive index modulation distribution once manufactured, constraining their adaptability and flexibility. This study introduces a reconfigurable multi-channel photon filter on a silicon nitride on insulator platform. The filter incorporates an equivalent linearly chirped four-phase-shifted sampled Bragg grating with micro-heaters to enable thermo-optic tuning, facilitating programmable control over transmission spectral features. Experimental outcomes indicate the filter’s capability to seamlessly transition among single, dual, and quad-band configurations, as well as a band-stop mode, with independent tuning of each band. Moreover, optical frequency division multiplexing experiments using a 50 GHz semiconductor mode-locked laser have affirmed the filter’s tunability. In quad-band mode, band separations of 50, 100, and 150 GHz are achievable; in dual and single-band modes, band intervals extend from 150 to 250 GHz, allowing for precise single-wavelength selection. Featuring high tunability, minimal insertion losses, and superior signal side-mode suppression ratio, this filter structure supports the integration of programmable photonic devices into space optical communications, photonic integrated networks, and elastic optical networks.https://doi.org/10.1515/nanoph-2025-0119microwave photonicsreconfigurable filtersampled bragg gratingreconstructed equivalent chirp technologyprogrammable frequency division
spellingShingle Zhu Simeng
Yuan Bocheng
Fan Yizhe
Al-Rubaiee Mohanad
Sun Xiao
Li Zhibo
Hezarfen Ahmet Seckin
Kelly Anthony E.
Marsh John H.
Hou Lianping
A reconfigurable multi-channel on-chip photonic filter for programmable optical frequency division
Nanophotonics
microwave photonics
reconfigurable filter
sampled bragg grating
reconstructed equivalent chirp technology
programmable frequency division
title A reconfigurable multi-channel on-chip photonic filter for programmable optical frequency division
title_full A reconfigurable multi-channel on-chip photonic filter for programmable optical frequency division
title_fullStr A reconfigurable multi-channel on-chip photonic filter for programmable optical frequency division
title_full_unstemmed A reconfigurable multi-channel on-chip photonic filter for programmable optical frequency division
title_short A reconfigurable multi-channel on-chip photonic filter for programmable optical frequency division
title_sort reconfigurable multi channel on chip photonic filter for programmable optical frequency division
topic microwave photonics
reconfigurable filter
sampled bragg grating
reconstructed equivalent chirp technology
programmable frequency division
url https://doi.org/10.1515/nanoph-2025-0119
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