327 Gbps THz silicon photonic interconnect with sub-λ bends
Miniaturized photonic devices at the terahertz (THz) band are envisioned to bring significant enhancement to data transfer capacity and integration density for computing and future wireless communications. Broadband silicon waveguiding technology has continuously matured to advance low-loss platform...
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sg-ntu-dr.10356-1713862024-05-08T01:49:09Z 327 Gbps THz silicon photonic interconnect with sub-λ bends Gupta, Manoj Navaratna, Nikhil Szriftgiser, Pascal Ducournau, Guillaume Singh, Ranjan School of Physical and Mathematical Sciences Centre for Disruptive Photonic Technologies (CDPT) The Photonics Institute Physics Photonic Devices Terahertz Band Miniaturized photonic devices at the terahertz (THz) band are envisioned to bring significant enhancement to data transfer capacity and integration density for computing and future wireless communications. Broadband silicon waveguiding technology has continuously matured to advance low-loss platforms for integrated solutions. However, challenges are faced in realizing compact waveguiding platforms with different degrees of bends due to bend induced losses and mode distortion. Here, we demonstrate multiple bend incorporated photonic crystal waveguide platforms for multicarrier on-chip transmission. Our silicon interconnect device exhibits optimized bending radius to the free space wavelength ratio of 0.74, without signal distortion and transmission bandwidth of 90 GHz, representing 25.4% fractional bandwidth at 355 GHz. The broadband waveguide interconnect enables an aggregate data transfer rate of 327 Gbps by sending the complex modulated data over multiple carriers. This work augments the development of THz photonic integrated circuit for the future generations of on-chip high data rate interconnect and wireless communication, ranging from the sixth to X generation (6G to XG). National Research Foundation (NRF) Submitted/Accepted version The authors acknowledge the financial support from the National Research Foundation (NRF), Singapore, under Grant No. NRF-CRP23- 2019-0005. G.D. and P.S. acknowledge the support from ‘France 2030’ programs, PEPR (Programmes et Equipements Prioritaires pour la Recherche), and CPER Wavetech. The PEPR is operated by the Agence Nationale de la Recherche (ANR), under the grants ANR-22-PEEL-0006 (FUNTERA, PEPR ‘Electronics’) and ANR-22-PEFT-0006 (NFSYSTERA, PEPR 5G and beyond – Future Networks). The Contrat de Plan Etat-Region (CPER) WaveTech is supported by the Ministry of Higher Education and Research, the Hauts-de-France Regional council, the Lille European Metropolis (MEL), the Institute of Physics of the French National Centre for Scientific Research (CNRS) and the European Regional Development Fund (ERDF). 2023-10-25T06:44:53Z 2023-10-25T06:44:53Z 2023 Journal Article Gupta, M., Navaratna, N., Szriftgiser, P., Ducournau, G. & Singh, R. (2023). 327 Gbps THz silicon photonic interconnect with sub-λ bends. Applied Physics Letters, 123(17), 171102-. https://dx.doi.org/10.1063/5.0168016 1077-3118 https://hdl.handle.net/10356/171386 10.1063/5.0168016 17 123 171102 en NRF-CRP23- 2019-0005 Applied Physics Letters 10.21979/N9/YL4ACT © 2023 The Author(s). Published under an exclusive license by AIP Publishing. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1063/5.0168016. application/pdf application/pdf |
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Physics Photonic Devices Terahertz Band |
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Physics Photonic Devices Terahertz Band Gupta, Manoj Navaratna, Nikhil Szriftgiser, Pascal Ducournau, Guillaume Singh, Ranjan 327 Gbps THz silicon photonic interconnect with sub-λ bends |
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Miniaturized photonic devices at the terahertz (THz) band are envisioned to bring significant enhancement to data transfer capacity and integration density for computing and future wireless communications. Broadband silicon waveguiding technology has continuously matured to advance low-loss platforms for integrated solutions. However, challenges are faced in realizing compact waveguiding platforms with different degrees of bends due to bend induced losses and mode distortion. Here, we demonstrate multiple bend incorporated photonic crystal waveguide platforms for multicarrier on-chip transmission. Our silicon interconnect device exhibits optimized bending radius to the free space wavelength ratio of 0.74, without signal distortion and transmission bandwidth of 90 GHz, representing 25.4% fractional bandwidth at 355 GHz. The broadband waveguide interconnect enables an aggregate data transfer rate of 327 Gbps by sending the complex modulated data over multiple carriers. This work augments the development of THz photonic integrated circuit for the future generations of on-chip high data rate interconnect and wireless communication, ranging from the sixth to X generation (6G to XG). |
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School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Gupta, Manoj Navaratna, Nikhil Szriftgiser, Pascal Ducournau, Guillaume Singh, Ranjan |
| format |
Article |
| author |
Gupta, Manoj Navaratna, Nikhil Szriftgiser, Pascal Ducournau, Guillaume Singh, Ranjan |
| author_sort |
Gupta, Manoj |
| title |
327 Gbps THz silicon photonic interconnect with sub-λ bends |
| title_short |
327 Gbps THz silicon photonic interconnect with sub-λ bends |
| title_full |
327 Gbps THz silicon photonic interconnect with sub-λ bends |
| title_fullStr |
327 Gbps THz silicon photonic interconnect with sub-λ bends |
| title_full_unstemmed |
327 Gbps THz silicon photonic interconnect with sub-λ bends |
| title_sort |
327 gbps thz silicon photonic interconnect with sub-λ bends |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171386 |
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1800916411863793664 |