Design and Implementation of a Specialised Millimetre-Wave Exposure System for Investigating the Radiation Effects of 5G and Future Technologies

Foroughimehr, Negin; Wood, Andrew; McKenzie, Ray; Karipidis, Ken; Yavari, Ali

doi:10.3390/s24051516

Sensors

2024

DOI: 10.3390/s24051516

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Design and Implementation of a Specialised Millimetre-Wave Exposure System for Investigating the Radiation Effects of 5G and Future Technologies

Negin Foroughimehr,

Andrew Wood,

Ray McKenzie

et al.

Abstract: As the fifth-generation (5G) network is introduced in the millimetre-wave (mmWave) spectrum, and the widespread deployment of 5G standalone (SA) is approaching, it becomes essential to establish scientifically grounded exposure limits in the mmWave frequency band. To achieve this, conducting experiments at specific frequencies is crucial for obtaining reliable evidence of potential biological impacts. However, there is a literature gap where experimental research either does not utilise the mmWave high band (e… Show more

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2024

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Cited by 3 publications

References 34 publications

(43 reference statements)

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The influence of eyelashes on electric field distribution and absorbed power density in the cornea under millimeter‐wave exposure

Foroughimehr,

Vilagosh,

Yavari

et al. 2024

Bioelectromagnetics

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As millimeter wave (MMW) technology, particularly in fifth‐generation (5G) devices, gains prominence, there is a crucial need for comprehensive electromagnetic (EM) models of ocular tissues to understand and characterize EM exposure conditions accurately. This study employs numerical modeling to investigate the interaction between MMW and the cornea, aiming to characterize EM field distributions and absorption within an anatomically accurate eye model while considering the influence of eyelashes. Using the finite‐difference time‐domain (FDTD) method, we conduct simulations of EM radiation interactions from 20.0 to 100.0 GHz with a human eye model. Moreover, we analyze the temperature distribution increase within the eye model using a thermal sensor in XFdtd, employing a scheme based on the finite difference (FD) method. Our findings reveal a nonuniform distribution of the EM field, particularly intensified in corneal regions adjacent to eyelashes and eyelids. Despite similar EM field patterns, the presence or absence of eyelashes has minimal impact on temperature differences. However, the study highlights increased radiation absorption by the eyelid's epidermis at 100.0 GHz, reducing the rise in the cornea's temperature.

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The influence of eyelashes on electric field distribution and absorbed power density in the cornea under millimeter‐wave exposure

Foroughimehr,

Vilagosh,

Yavari

et al. 2024

Bioelectromagnetics

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show abstract

Reconfigurable 28/38 GHz wideband and high isolation MIMO antenna for advanced mmWave applications

Alsalman,

Alhumaid,

Alnogithan

et al. 2024

Journal of Electrical Engineering

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This research presents a high-performance MIMO antenna for 5G and next-generation wireless communication. Operating in the millimeter wave (mmWave) band, the antenna offers frequency and radiation pattern reconfigurability. A compact-size antenna, with dimensions of 22.5×30×0.787 mm3, exhibited peak gains of 7.5 and 6.5 dBi at 28 and 38 GHz, respectively. The envelope correlation coefficient (ECC) was improved through proper spacing and adopting a simple decoupling technique, ensuring efficient MIMO operation. Based on the evaluated reflection coefficients, bandwidths of 2.3 and 12.9 GHz at 28 and 38 GHz, respectively have been accomplished. The mutual coupling between antenna elements was minimized achieving improved isolation of −37 and −40 dB at the desired frequency bands. This corresponds to an envelope correlation coefficient and diversity gain of 1.6×10−4 and 9.99, respectively. The antenna gain was enhanced by incorporating a metasurface designed to optimize gain and improve isolation. For a single-element antenna, the gain was enhanced to 7.9 and 7.3 dBi at frequencies of 28 GHz, and 38 GHz, respectively. The antenna design incorporates frequency and pattern reconfigurability through switching selected antenna ports and patches. The proposed design’s simplicity and antenna compactness make it practical for various mmWave communication systems.

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Exploring Skin Interactions with 5G Millimeter-Wave through Fluorescence Lifetime Imaging Microscopy

Foroughimehr,

Clayton,

Yavari

2024

Electronics

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The ongoing expansion of fifth-generation (5G) and future sixth-generation (6G) mobile communications is expected to result in widespread human exposure to millimeter-wave (mmWave) radiation globally. Given the short penetration depth of mmWaves and their high absorption by the skin, it is imperative to investigate the potential effects of 5G radiation not only in terms of temperature increase but also at the cellular level. To understand the biological mechanisms of mmWave effects, accurate methods for assessing mmWave absorption in the skin are crucial. In this study, we use fluorescence lifetime imaging microscopy (FLIM) to explore these effects. Employing a mmWave exposure system operating at 26 gigahertz (GHz), porcine skin is irradiated for varying durations (5, 10, 20, and 30 min). We investigate changes in tissue temperature and the autofluorescence of flavin adenine dinucleotide (FAD). Our findings suggest that operating our mmWave exposure systems at the configured power level of 26 GHz is unlikely to cause damage to FADs, even after a 30 min exposure duration.

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Design and Implementation of a Specialised Millimetre-Wave Exposure System for Investigating the Radiation Effects of 5G and Future Technologies

Cited by 3 publications

References 34 publications

The influence of eyelashes on electric field distribution and absorbed power density in the cornea under millimeter‐wave exposure

The influence of eyelashes on electric field distribution and absorbed power density in the cornea under millimeter‐wave exposure

Reconfigurable 28/38 GHz wideband and high isolation MIMO antenna for advanced mmWave applications

Exploring Skin Interactions with 5G Millimeter-Wave through Fluorescence Lifetime Imaging Microscopy

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