Metamaterial-engineered fiber-chip couplers in silicon and silicon nitride waveguides
Metamaterial-engineered fiber-chip couplers in silicon and silicon nitride waveguides
Integrated photonics has become a mainstream technology driven by advances in optical communications and leveraging mature processing infrastructure of silicon microelectronics. In practical applications of photonic integrated circuits (PICs), the presence of low-loss off-chip optical coupling interfaces is of key importance. Photonic chips require optical connection to the external world, facilitating both multi-channel fiber connections and free-space multi-port optics. Optical coupling in and out of the planar waveguide circuits is still a critical challenge in integrated photonics due to limitations caused by geometrical, material, and modal mismatches. The utilization of subwavelength grating (SWG) metamaterials, i.e. nano-structured waveguide segments with structural periodicity smaller than the wavelength of the propagating light, is often harnessed as an effective design tool to improve the performance of fiber-chip optical couplers, without compromising the fabrication simplicity. In this work, we present recent advances in the development of low-loss photonic chip interfaces based on surface grating couplers with SWG metamaterials. In particular, we report on advanced design solutions of surface gratings realized on silicon and silicon nitride waveguide platforms, facilitating effective control of polarization and enhanced fiber-chip coupling performance with losses down to -1 dB.
Integrated photonics, Metamaterials, Optical interfaces, Silicon nitride, Silicon-on-insulator, Subwavelength gratings, Surface grating couplers
Benedikovic, Daniel
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Korček, Radovan
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Fraser, William
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Salhi, Sarra
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Xin, Xiaochen
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Medina Quiroz, David
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Dominguez Bucio, Thalia
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Gardes, Frederic
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Petrovič, Adam
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Pikulíková,, Viktória
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Šajban, Matej
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Wilmart, Quentin
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Edmond, Samson
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Litvik, Jan
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Glesk, Ivan
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Cheben, Pavel
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Schmid, Jens H.
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Melati, Daniele
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Vivien, Laurent
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Alonso-Ramos, Carlos
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Ye, Winnie N.
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20 March 2025
Benedikovic, Daniel
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Korček, Radovan
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Fraser, William
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Salhi, Sarra
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Xin, Xiaochen
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Medina Quiroz, David
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Dominguez Bucio, Thalia
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Gardes, Frederic
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Petrovič, Adam
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Pikulíková,, Viktória
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Šajban, Matej
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Wilmart, Quentin
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Edmond, Samson
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Litvik, Jan
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Glesk, Ivan
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Cheben, Pavel
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Schmid, Jens H.
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Melati, Daniele
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Vivien, Laurent
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Alonso-Ramos, Carlos
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Ye, Winnie N.
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Benedikovic, Daniel, Korček, Radovan, Fraser, William, Salhi, Sarra, Xin, Xiaochen, Medina Quiroz, David, Dominguez Bucio, Thalia, Gardes, Frederic, Petrovič, Adam, Pikulíková,, Viktória, Šajban, Matej, Wilmart, Quentin, Edmond, Samson, Litvik, Jan, Glesk, Ivan, Cheben, Pavel, Schmid, Jens H., Melati, Daniele, Vivien, Laurent, Alonso-Ramos, Carlos and Ye, Winnie N.
(2025)
Metamaterial-engineered fiber-chip couplers in silicon and silicon nitride waveguides.
Reed, Graham T. and Bradley, Jonathan
(eds.)
In Silicon Photonics XX.
vol. 13371,
SPIE.
4 pp
.
(doi:10.1117/12.3052403).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Integrated photonics has become a mainstream technology driven by advances in optical communications and leveraging mature processing infrastructure of silicon microelectronics. In practical applications of photonic integrated circuits (PICs), the presence of low-loss off-chip optical coupling interfaces is of key importance. Photonic chips require optical connection to the external world, facilitating both multi-channel fiber connections and free-space multi-port optics. Optical coupling in and out of the planar waveguide circuits is still a critical challenge in integrated photonics due to limitations caused by geometrical, material, and modal mismatches. The utilization of subwavelength grating (SWG) metamaterials, i.e. nano-structured waveguide segments with structural periodicity smaller than the wavelength of the propagating light, is often harnessed as an effective design tool to improve the performance of fiber-chip optical couplers, without compromising the fabrication simplicity. In this work, we present recent advances in the development of low-loss photonic chip interfaces based on surface grating couplers with SWG metamaterials. In particular, we report on advanced design solutions of surface gratings realized on silicon and silicon nitride waveguide platforms, facilitating effective control of polarization and enhanced fiber-chip coupling performance with losses down to -1 dB.
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More information
Published date: 20 March 2025
Keywords:
Integrated photonics, Metamaterials, Optical interfaces, Silicon nitride, Silicon-on-insulator, Subwavelength gratings, Surface grating couplers
Identifiers
Local EPrints ID: 505609
URI: http://eprints.soton.ac.uk/id/eprint/505609
ISSN: 0277-786X
PURE UUID: 945d2cf4-a6c3-4210-b6f1-7e3a549268fe
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Date deposited: 14 Oct 2025 16:52
Last modified: 15 Oct 2025 01:58
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Contributors
Author:
Daniel Benedikovic
Author:
Radovan Korček
Author:
William Fraser
Author:
Sarra Salhi
Author:
Xiaochen Xin
Author:
David Medina Quiroz
Author:
Thalia Dominguez Bucio
Author:
Frederic Gardes
Author:
Adam Petrovič
Author:
Viktória Pikulíková,
Author:
Matej Šajban
Author:
Quentin Wilmart
Author:
Samson Edmond
Author:
Jan Litvik
Author:
Ivan Glesk
Author:
Pavel Cheben
Author:
Jens H. Schmid
Author:
Daniele Melati
Author:
Laurent Vivien
Author:
Carlos Alonso-Ramos
Author:
Winnie N. Ye
Editor:
Graham T. Reed
Editor:
Jonathan Bradley
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