BaSrTiO
            <sub>3</sub>
            ceramic‐polymer composite material lens antennas at 220–330 GHz telecommunication applications

Myllymäki, Sami; Teirikangas, Merja; Kokkonen, Mikko

doi:10.1049/el.2020.1875

Cited by 5 publications

(4 citation statements)

References 13 publications

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“…Two low loss, low permittivity materials were chosen for the fabrication of the lenses. An LMO-HGMS ceramic composite that can be fabricated at room temperature and molded into a lens by a molding process (the recipe for the LMO-HGMS have been previously published [17]) and polypropylene polymer (ER182) that was hot-pressed into a lens shape [18]. The dielectrical properties of the used materials are listed in Table 1.…”

Section: Lenses For the Imaging Radio Link Setupmentioning

confidence: 99%

A Sensing Demonstration of a Sub THZ Radio Link Incorporating a Lens Antenna

Ghavidel¹,

Myllymäki²,

Kokkonen³

et al. 2021

PIER Letters

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We demonstrate that the future sixth generation (6G) radio links can be utilized for sub-THz frequency imaging using narrow beamwidth, high gain, lens antennas. Two different lenses, a bullet or hemispherical shape, were used in radio link setup (220-380 GHz) for an imaging application. Lenses performed with the gain of 28 dBi, 25 dBi, and the narrow beamwidths of 1 • and 2.5 • . Plants were used as imaging objects, and their impacts on radio beams were studied. For assessment, the radio link path loss parameter was −48.5 dB, −53.2 dB, and −57.1 dB with the frequency 220 GHz, 300 GHz, and 330 GHz, respectively. Also, the impact of the radio link distance on the imaging was studied by 50 cm and 2 m link distances. In addition, the 3D image was acquired using the phase component of the image, and it showed the leaf surface roughness and the thickness, which was similar to the measured value.

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Section: Lenses For the Imaging Radio Link Setupmentioning

confidence: 99%

A Sensing Demonstration of a Sub THZ Radio Link Incorporating a Lens Antenna

Ghavidel¹,

Myllymäki²,

Kokkonen³

et al. 2021

PIER Letters

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“…One of the radio frequency (RF) components that 𝑡𝑎𝑛𝛿 benefits from new materials is the RF lens used as in optics to focus the radiation thus increasing the antenna gain. 2 RF lenses are commonly made from materials such as high resistivity silicon ( ~11.9) [3][4][5] and polymers 𝜀 𝑟 ( ~2.3) 3,[6][7][8] . The use of materials with low and low allows higher signal speeds and improved 𝜀 𝑟 ε 𝑟 𝑡𝑎𝑛δ efficiency.…”

Section: Introductionmentioning

confidence: 99%

“…2 RF lenses are commonly made from materials such as high resistivity silicon (e r B 11.9) [3][4][5] and polymers (e r B 2.3). 3,[6][7][8] The use of materials with low e r and low tan d allows higher signal speeds and improved efficiency. 9 However, polymers and silicon are heavy materials that in turn increase the relative weight of the lens compared to the highly integrated RF electronics.…”

Section: Introductionmentioning

confidence: 99%

Wood-based composite materials for ultralight lens antennas in 6G systems

et al. 2022

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“…Several research works have been focused on dielectric lens antenna modification [1][2][3][4] and circuit components. 5 Elliptical lens geometry could contribute to the gain of 36.5 dB for 110 GHz, 4 and hyperbolic horn lens model aimed by metal guide feeder could perform gain 39 dB at frequency 240 GHz, 3 respectively.…”

mentioning

confidence: 99%

Lens antenna adjustment for telecommunication and imaging modes in a sub‐THz radio system

Ghavidel

Myllymäki

Kokkonen

et al. 2021

Engineering Reports

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This article presents a concept of a dual-mode operated sub-THz frequency radio system by adjusting the lens-antenna distance for either telecommunication or imaging modes. The signal transmittance and imaging capabilities are demonstrated using a continuous wave operated transceiver with operation frequency 220 to 330 GHz where the 6G wireless radio system could be allocated.A high-gain bullet-shape lens antenna was investigated for imaging the natural object (Bergenia leaf) in the short-range line-of-sight radio link. The bullet lens performed with the gain of 28 dB and the 1 • beamwidth over the frequency

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BaSrTiO ₃ ceramic‐polymer composite material lens antennas at 220–330 GHz telecommunication applications

Cited by 5 publications

References 13 publications

A Sensing Demonstration of a Sub THZ Radio Link Incorporating a Lens Antenna

A Sensing Demonstration of a Sub THZ Radio Link Incorporating a Lens Antenna

Wood-based composite materials for ultralight lens antennas in 6G systems

Lens antenna adjustment for telecommunication and imaging modes in a sub‐THz radio system

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BaSrTiO 3 ceramic‐polymer composite material lens antennas at 220–330 GHz telecommunication applications

Cited by 5 publications

References 13 publications

A Sensing Demonstration of a Sub THZ Radio Link Incorporating a Lens Antenna

A Sensing Demonstration of a Sub THZ Radio Link Incorporating a Lens Antenna

Wood-based composite materials for ultralight lens antennas in 6G systems

Lens antenna adjustment for telecommunication and imaging modes in a sub‐THz radio system

Contact Info

Product

Resources

About

BaSrTiO ₃ ceramic‐polymer composite material lens antennas at 220–330 GHz telecommunication applications