Millimeter-Wave Reflector Based on a Ferroelectric Material with Electrical Beam Steering

Platonov, Roman; Altynnikov, A. G.; Komlev, А. Е.; Sosunov, A M; Kozyrev, A. B.

doi:10.3390/cryst11060585

Cited by 3 publications

(1 citation statement)

References 21 publications

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“…With electrical beam steering, we control the direction of radiated power and target it to the receiving end, improving reception. Although beam steering is often performed with antenna arrays, there have been many interesting alternate approaches recently, such as the Lunenburg lens [ 4 , 5 ], surface plasmons [ 6 ], plasmonic materials [ 7 ], leaky wave antenna [ 8 , 9 ], dielectric lenses [ 10 ] and ferroelectric materials [ 11 ].…”

Section: Introductionmentioning

confidence: 99%

Design of a Compact and Minimalistic Intermediate Phase Shifting Feed Network for Ka-Band Electrical Beam Steering

Verho,

Chung

2024

Sensors

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Intermediate phase shifting is a footprint- and cost-reduction technique for reconfigurable feed networks. These feed networks are utilized in antenna arrays to perform electrical beam steering. In intermediate phase shifting, a phase shifter is shared between two adjacent antennas. Conventionally, antennas only have individual phase shifters. With shared phase shifters, we reduce the number of components and the footprint by 25%. Consequently, this decreases the price and enables designs at millimeter-wave frequencies where space is limited due to frequency-dependent antenna spacing. This intermediate phase shifting is demonstrated by designing a reconfigurable feed network for the Ka-band that generates a continuous phase shift profile for beam steering. Due to the use of varactors and a novel biasing method, it does not require expensive beamformer integrated chips or lumped components for biasing. The feed network is combined with a 4 × 4 antenna array to demonstrate its beam-steering capabilities. The result is a high-density and minimalistic design that fits in a small volume of 25.6 × 25.6 × 0.95 mm3. With this small antenna array, the main beam is steered at ±40∘ broadside, providing full 1D and restricted 2D steering. It is a potential candidate for wireless sensor and mobile networks.

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Section: Introductionmentioning

confidence: 99%

Design of a Compact and Minimalistic Intermediate Phase Shifting Feed Network for Ka-Band Electrical Beam Steering

Verho,

Chung

2024

Sensors

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Temperature Dependence of Structure, Dielectric and Energy Storage Properties in Bi _3.15 Nd _0.85 Ti ₃ O ₁₂ Thin Films

Zhao,

Fan,

Yin

et al. 2023

Integrated Ferroelectrics

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Reconfigurable anomalous reflectors with stretchable elastic substrates at 140 GHz band

Kato,

Yonemura,

Seki

et al. 2023

Nanophotonics

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We propose reconfigurable anomalous reflectors with stretchable elastic substrates. The proposed reflector dynamically controls the reflection direction by mechanically stretching the substrate to induce a physical change of the unit cell period. Owing to the simple and scalable tuning mechanism, the proposed approach is applicable in the millimeter-wave and terahertz bands for a wide reflection steering. To demonstrate the proposed approach, stretchable anomalous reflectors are designed at 140 GHz for normal incident waves. From full-wave simulations, we numerically confirm that highly efficient anomalous reflections with suppressed parasitic reflections in the undesired directions are achieved toward shallower angles as the substrate is stretched. We experimentally demonstrate that the proposed reflectors allow a dynamic control of the reflection direction with wide steering ranges of more than 20°. Moreover, we confirm that the measured efficiencies of the anomalous reflections hardly deteriorate when stretching and maintain practically acceptable performances of over 50 %. The proposed stretchable reflectors have a potential to be used for a reconfigurable intelligent surface (RIS) that realizes dynamic optimizations of the wireless environment in the 6G communication.

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Millimeter-Wave Reflector Based on a Ferroelectric Material with Electrical Beam Steering

Cited by 3 publications

References 21 publications

Design of a Compact and Minimalistic Intermediate Phase Shifting Feed Network for Ka-Band Electrical Beam Steering

Design of a Compact and Minimalistic Intermediate Phase Shifting Feed Network for Ka-Band Electrical Beam Steering

Temperature Dependence of Structure, Dielectric and Energy Storage Properties in Bi _3.15 Nd _0.85 Ti ₃ O ₁₂ Thin Films

Reconfigurable anomalous reflectors with stretchable elastic substrates at 140 GHz band

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Millimeter-Wave Reflector Based on a Ferroelectric Material with Electrical Beam Steering

Cited by 3 publications

References 21 publications

Design of a Compact and Minimalistic Intermediate Phase Shifting Feed Network for Ka-Band Electrical Beam Steering

Design of a Compact and Minimalistic Intermediate Phase Shifting Feed Network for Ka-Band Electrical Beam Steering

Temperature Dependence of Structure, Dielectric and Energy Storage Properties in Bi 3.15 Nd 0.85 Ti 3 O 12 Thin Films

Reconfigurable anomalous reflectors with stretchable elastic substrates at 140 GHz band

Contact Info

Product

Resources

About

Temperature Dependence of Structure, Dielectric and Energy Storage Properties in Bi _3.15 Nd _0.85 Ti ₃ O ₁₂ Thin Films

Reconfigurable anomalous reflectors with stretchable elastic substrates at 140 GHz band