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Plasmonic modulator enabling kilometer-range high-throughput sub-THz links for radio access networks

The authors demonstrate a 226-GHz all-photonic wireless link over 1.4 km, achieving a record-high net-rate-distance product of 214.2 Gbits⁻¹ km using broadband photonic/plasmonic components and a dual-sideband receiver that boosts SNR by 2 dB, showing strong turbulence resilience and exciting sub-THz deployment potential.

Boris Vukovic
Laurenz Kulmer
Juerg Leuthold
ResearchOpen Access18 Apr 2026
Nature Communications

P: 1-9
High-speed graphene-based sub-terahertz receivers enabling wireless communications for 6G and beyond

The authors showcase graphene based sub THz receivers that achieve multigigabit per second data rates over ~ 3 m and reveal a bandwidth-sensitivity trade off, advancing short range and chip to chip communication technologies.

Karuppasamy Pandian Soundarapandian
Sebastián Castilla
Frank H. L. Koppens
ResearchOpen Access25 Mar 2026
Nature Communications

Volume: 17, P: 1-12
A quantum walk comb source at telecommunication wavelengths

A nearly flat broadband quantum walk comb laser is demonstrated in the near-infrared region. A bandwidth of 1.8 THz with a wallplug efficiency of 6% and an ultra-narrow radio frequency linewidth of 1 Hz is achieved at the fundamental repetition rate of 1 GHz.

Bahareh Marzban
Lucius Miller
Jérôme Faist
Research25 Mar 2026
Nature Photonics

Volume: 20, P: 370-376
All-plasmonic sub-terahertz wireless communication link

This study demonstrates a sub-THz free-space link, achieving 120 Gbit/s across 5 m enabled by compact plasmonic components with >300 GHz bandwidth, paving the way for next-generation scalable wireless networks at high carrier frequencies.

Tobias Blatter
Stefan M. Koepfli
Juerg Leuthold
ResearchOpen Access13 Nov 2025
Nature Communications

Volume: 16, P: 1-11
The plasmonic BTO-on-SiN platform – beyond 200 GBd modulation for optical communications

This plasmonic BTO-on-SiN platform enables 256 GBd high-speed data transmission. It can further operate beyond 200 GBd for IQ and O-band racetrack modulators within highly compact device footprints.

Manuel Kohli
Daniel Chelladurai
Juerg Leuthold
ResearchOpen Access16 Dec 2025
Light: Science & Applications

Volume: 14, P: 1-11
Tbit/s line-rate satellite feeder links enabled by coherent modulation and full-adaptive optics

This paper demonstrates a 53 km free-space-optical communication link mimicking a satellite-downlink. It achieves 1Tbit/s transmission by addressing turbulence and low-SNR issues through adaptive optics and a novel four-dimensional modulation format.

Yannik Horst
Bertold Ian Bitachon
Juerg Leuthold
ResearchOpen Access20 Jun 2023
Light: Science & Applications

Volume: 12, P: 1-12

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Plasmonic modulator enabling kilometer-range high-throughput sub-THz links for radio access networks

High-speed graphene-based sub-terahertz receivers enabling wireless communications for 6G and beyond

A quantum walk comb source at telecommunication wavelengths

All-plasmonic sub-terahertz wireless communication link

The plasmonic BTO-on-SiN platform – beyond 200 GBd modulation for optical communications

Tbit/s line-rate satellite feeder links enabled by coherent modulation and full-adaptive optics

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