2021
DOI: 10.1364/oe.427575
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Mobile THz communications using photonic assisted beam steering leaky-wave antennas

Abstract: THz communications is envisaged for wide bandwidth mobile communications eventually reaching data capacities exceeding 100 Gbit/s. The technology enabling compact chip-integrated transceivers with highly directive, steerable antennas is the key challenge at THz frequencies to overcome the very high free-space path losses and to support user mobility. In this article, we report on mobile and multi-user THz communications using a photonic THz transmitter chip featuring 1D beam steering for the first time. In the… Show more

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Cited by 29 publications
(12 citation statements)
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“…LWAs are highly suitable for CMOS integration [171]. Most non-graphene implementations focus on the microwave frequency range [171][172][173][174], with fewer implementations exploring the THz range [171,[174][175][176]. The main focus has been in the development of highly efficient, high directivity, and wide scan angle implementations for communication applications.…”
Section: Leaky Wave Antennasmentioning
confidence: 99%
See 1 more Smart Citation
“…LWAs are highly suitable for CMOS integration [171]. Most non-graphene implementations focus on the microwave frequency range [171][172][173][174], with fewer implementations exploring the THz range [171,[174][175][176]. The main focus has been in the development of highly efficient, high directivity, and wide scan angle implementations for communication applications.…”
Section: Leaky Wave Antennasmentioning
confidence: 99%
“…The main focus has been in the development of highly efficient, high directivity, and wide scan angle implementations for communication applications. As such, much interest has been in the reconfiguration of their polarization [173], beam scanning [172], and multiplexing [175,176]. RF switches, such as diodes [171] or MEMS [177], are commonly used to achieve reconfigurability.…”
Section: Leaky Wave Antennasmentioning
confidence: 99%
“…In [147], 100 Gbit/s wireless THz transmission is demonstrated at 300 GHz using an analog bandwidth of only 12.5 GHz. By using a photodiode excited planar InP-based on-chip THz LWA, mobile THz communications is demonstrated for the first time in [148]. For single user operation, a minimum data rate of 24 Gbit/s is achieved within the antenna's scanning range of 33°.…”
Section: Mobile 6g Thz Communicationsmentioning
confidence: 99%
“…Another example introduced tilt into the pump beam of a photoconductive antenna to achieve an outgoing phase gradient [123], but this requires a highly advanced physical laser set-up that is not viable for network VOLUME 10, 2022 deployment. Leaky-wave antennas have been deployed for demonstrations of terahertz communications [124], but their frequency-scanning nature imposes stringent restrictions on achievable data rates and achievable beam patterns.…”
Section: ) Terahertz Beamforming and Beam Steering Antenna Patternsmentioning
confidence: 99%