InP-Based THz Beam Steering Leaky-Wave Antenna

Lü, Peng; Haddad, Thomas; Sievert, Benedikt; Khani, Besher; Makhlouf, Sumer; Dulme, Sebastian; Estevez, Jose Fernandez; Rennings, Andreas; Erni, Daniel; Pfeiffer, Ullrich R.; Stöhr, A.

doi:10.1109/tthz.2020.3039460

Cited by 41 publications

(16 citation statements)

References 64 publications

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“…If multiple angularly dispersive devices are placed in a channel, the affect will accumulate and could severely limit the spectral bandwidth at the receiver. In the case of effective beam-steering, the potential of using diffractive elements is an ongoing investigation 39 , 40 . The impact of such devices on the spectral bandwidth and any additional loss introduced must also be thoroughly considered.…”

Section: Discussionmentioning

confidence: 99%

The effect of angular dispersion on THz data transmission

Shrestha

Fang

Guerboukha

et al. 2022

Sci Rep

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One of the key distinctions between legacy low-frequency wireless systems and future THz wireless transmissions is that THz links will require high directionality, to overcome the large free-space path loss. Because of this directionality, optical phenomena become increasingly important as design considerations. A key example lies in the strong dependence of angular radiation patterns on the transmission frequency, which is manifested in many different situations including common diffraction patterns and the emission from leaky-wave apertures. As a result of this effect, the spectral bandwidth at a receiver is nonlinearly dependent on the receiver’s angular position and distance from the transmitter. In this work, we explore the implications of this type of effect by incorporating either a diffraction grating or a leaky wave antenna into a communication link. These general considerations will have significant implications for the robustness of data transmissions at high frequencies.

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Section: Discussionmentioning

confidence: 99%

The effect of angular dispersion on THz data transmission

Shrestha

Fang

Guerboukha

et al. 2022

Sci Rep

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“…12(b) [105], [107]. Some other demonstrations used such THz LWAs for wireless communications [108], [109], but this encountered angle-dependent frequency & bandwidth use. One demonstration creatively used a fast-wave LWA for frequency (de)multiplexing in THz wireless communications [110].…”

Section: B Beam Steering With Planar and Passive Systemsmentioning

confidence: 99%

THz Systems Exploiting Photonics and Communications Technologies

et al. 2023

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Terahertz (THz) systems open up the possibility of new applications of electromagnetic waves. Enormous bandwidths up to several terahertz enable the development of powerful spectroscopy systems that can provide insights into the structure and material of objects with micrometer resolution. New high power and compact THz time-domain spectroscopy (TDS) systems will be presented. The wide bandwidth also enables high-resolution imaging under far-field conditions to analyze arbitrary objects from a distance. In addition, a near-field system-on-a-chip imaging system is presented that achieves a resolution of 10 μm. Additionally, the application of terahertz waves presents challenges due to the low transmit power of the sources, high attenuation in free space, and the high noise figures of the receivers. These challenges can be overcome by antennas with high gain. Since -depending on the application -spatial scanning or focusing in a time-varying direction is required, beam steering is an essential component of many THz systems. In terms of communications, terahertz carrier frequencies offer wide bandwidths, enabling correspondingly high data rates of 100 Gbit/s and more. As a result, the frequency bands between 250 GHz and 450 GHz have already been identified and/or allocated for communication services and are being discussed as a component of 6G mobile communications. Concepts and demonstrations for 6G terahertz mobile communications will be presented. The high bandwidth of terahertz waves can also be used for high-accuracy indoor localization.INDEX TERMS THz time-domain spectroscopy, high average power THz systems, THz far-field imaging, THz near-field imaging, THz communication, THz localization, MTT 70th Anniversary Special Issue.

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“…The on-chip THz LWA is based on a microstrip transmission line with altogether 32 rectangular stubs, placed on both sides of the microstrip to produce fast waves which can be radiated [6]. A substrate-transfer technology using a silicon wafer as a mechanical carrier substrate is established in order to be able to fabricate the LWA on a 50µm thin InP substrate.…”

Section: Inp-based Chip-integrated 03 Thz Lwamentioning

confidence: 99%

“…A substrate-transfer technology using a silicon wafer as a mechanical carrier substrate is established in order to be able to fabricate the LWA on a 50µm thin InP substrate. The thin InP substrate is necessary to reduce the number of surface wave modes and achieve a high antenna gain [6]. For probing the antennas, the LWAs are integrated with on-chip grounded coplanar waveguide to microstrip-line (GCPW-MSL) THz transitions.…”

Section: Inp-based Chip-integrated 03 Thz Lwamentioning

confidence: 99%