300 GHz quadrature phase shift keying and QAM16 56 Gbps wireless data links using silicon photonics photodiodes | Zendy

BelemGoncalves C. | Zendy; Lacombe E. | Zendy; Gidel V. | Zendy; Durand C. | Zendy; Gianesello F. | Zendy; Gloria D. | Zendy; Luxey C. | Zendy; Ducournau G. | Zendy

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300 GHz quadrature phase shift keying and QAM16 56 Gbps wireless data links using silicon photonics photodiodes

Author(s) -

BelemGoncalves C.,

Lacombe E.,

Gidel V.,

Durand C.,

Gianesello F.,

Gloria D.,

Luxey C.,

Ducournau G.

Publication year - 2019

Publication title -

electronics letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.375

H-Index - 146

ISSN - 1350-911X

DOI - 10.1049/el.2019.1242

Subject(s) - quadrature amplitude modulation , phase shift keying , photonics , photodiode , silicon photonics , modulation (music) , electronic engineering , qam , wireless , keying , phase modulation , quadrature (astronomy) , optoelectronics , channel (broadcasting) , materials science , physics , computer science , engineering , electrical engineering , phase noise , telecommunications , bit error rate , acoustics

In this Letter, the authors report the achievement of terahertz transmissions using advanced quadrature amplitude modulation (QAM)16 signals using 300 GHz silicon photonics devices, developed in industrial foundry process PIC25G. Up to 56 Gbps is obtained using QAM16 single channel modulation and up to 50 Gbps in a dual‐channel configuration.

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