Design of fiber-integrated tunable thermo-optic C-band filter based on coated silicon slab

Design of fiber-integrated tunable thermo-optic C-band filter based on coated silicon slab

Abstract Background Optical filters are required to have narrow band-pass filtering in the spectral C-band for applications such as signal tracking, sub-band filtering or noise suppression. These requirements lead to a variety of filters that offer thermo-optic effect for optical switching, however,...

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Main Authors: H. Pinhas, D. Malka, Y. Danan, M. Sinvani, Z. Zalevsky
Format: Article
Language:English
Published: SpringerOpen 2017-11-01
Series:Journal of the European Optical Society-Rapid Publications
Subjects:
Optoelectronics
Switching
Resonators
Infrared systems
Online Access:http://link.springer.com/article/10.1186/s41476-017-0060-x
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spelling doaj-b4d61d05a7a348c0bf24996feb264eb02020-11-25T00:42:04ZengSpringerOpenJournal of the European Optical Society-Rapid Publications1990-25732017-11-0113111010.1186/s41476-017-0060-xDesign of fiber-integrated tunable thermo-optic C-band filter based on coated silicon slabH. Pinhas0D. Malka1Y. Danan2M. Sinvani3Z. Zalevsky4Faculty of Engineering and the Nano-Technology Center, Bar-Ilan UniversityFaculty of Engineering, Holon Institute of Technology (HIT)Faculty of Engineering and the Nano-Technology Center, Bar-Ilan UniversityFaculty of Engineering and the Nano-Technology Center, Bar-Ilan UniversityFaculty of Engineering and the Nano-Technology Center, Bar-Ilan UniversityAbstract Background Optical filters are required to have narrow band-pass filtering in the spectral C-band for applications such as signal tracking, sub-band filtering or noise suppression. These requirements lead to a variety of filters that offer thermo-optic effect for optical switching, however, some of which without proper thermal and optical efficiency. Methods In this paper we propose a tunable thermo-optic filtering device based on a coated silicon slab resonator with an increased Q-factor to allow for an efficient thermo-optical switching in the C-band. The device can be designed either for long range wavelength tuning or for short range with increased wavelength resolution. Results Theoretical examination of the thermal parameters affecting the filtering process is shown together with experimental results. Proper channel isolation with an extinction ratio of 20 dB is achieved with a spectral bandpass width of 0.07 nm. Conclusions This Si slab based filter characteristics make it suitable for wavelength switching systems such as dense wavelength division multiplexing. In addition, the filter is fiber integrated in order for it to be more compatible with other optics communication devices.http://link.springer.com/article/10.1186/s41476-017-0060-xOptoelectronicsSwitchingResonatorsInfrared systems
collection DOAJ
language English
format Article
sources DOAJ
author H. Pinhas
D. Malka
Y. Danan
M. Sinvani
Z. Zalevsky
spellingShingle H. Pinhas
D. Malka
Y. Danan
M. Sinvani
Z. Zalevsky
Design of fiber-integrated tunable thermo-optic C-band filter based on coated silicon slab
Journal of the European Optical Society-Rapid Publications
Optoelectronics
Switching
Resonators
Infrared systems
author_facet H. Pinhas
D. Malka
Y. Danan
M. Sinvani
Z. Zalevsky
author_sort H. Pinhas
title Design of fiber-integrated tunable thermo-optic C-band filter based on coated silicon slab
title_short Design of fiber-integrated tunable thermo-optic C-band filter based on coated silicon slab
title_full Design of fiber-integrated tunable thermo-optic C-band filter based on coated silicon slab
title_fullStr Design of fiber-integrated tunable thermo-optic C-band filter based on coated silicon slab
title_full_unstemmed Design of fiber-integrated tunable thermo-optic C-band filter based on coated silicon slab
title_sort design of fiber-integrated tunable thermo-optic c-band filter based on coated silicon slab
publisher SpringerOpen
series Journal of the European Optical Society-Rapid Publications
issn 1990-2573
publishDate 2017-11-01
description Abstract Background Optical filters are required to have narrow band-pass filtering in the spectral C-band for applications such as signal tracking, sub-band filtering or noise suppression. These requirements lead to a variety of filters that offer thermo-optic effect for optical switching, however, some of which without proper thermal and optical efficiency. Methods In this paper we propose a tunable thermo-optic filtering device based on a coated silicon slab resonator with an increased Q-factor to allow for an efficient thermo-optical switching in the C-band. The device can be designed either for long range wavelength tuning or for short range with increased wavelength resolution. Results Theoretical examination of the thermal parameters affecting the filtering process is shown together with experimental results. Proper channel isolation with an extinction ratio of 20 dB is achieved with a spectral bandpass width of 0.07 nm. Conclusions This Si slab based filter characteristics make it suitable for wavelength switching systems such as dense wavelength division multiplexing. In addition, the filter is fiber integrated in order for it to be more compatible with other optics communication devices.
topic Optoelectronics
Switching
Resonators
Infrared systems
url http://link.springer.com/article/10.1186/s41476-017-0060-x
work_keys_str_mv AT hpinhas designoffiberintegratedtunablethermoopticcbandfilterbasedoncoatedsiliconslab
AT dmalka designoffiberintegratedtunablethermoopticcbandfilterbasedoncoatedsiliconslab
AT ydanan designoffiberintegratedtunablethermoopticcbandfilterbasedoncoatedsiliconslab
AT msinvani designoffiberintegratedtunablethermoopticcbandfilterbasedoncoatedsiliconslab
AT zzalevsky designoffiberintegratedtunablethermoopticcbandfilterbasedoncoatedsiliconslab
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