Roman Gaponenko scite author profile

An experimental demonstration of directivities exceeding the fundamental Kildal limit, a phenomenon called superdirectivity, is provided for spherical high-index dielectric antennas with an electric dipole excitation. A directivity factor of about 10 with a total efficiency of more than 80% for an antenna having a size of a third of the wavelength was measured. High directivities are shown to be associated with constructive interference of particular electric and magnetic modes of an open spherical resonator. Both analytic solutions for a point dipole and a full-wave rigorous simulation for a realistic dipole antenna were employed for optimization and analysis, yielding an excellent agreement between experimentally measured and numerically predicted directivities. The use of high-index low-loss ceramics can significantly reduce the physical size of such antennas while maintaining their overall high radiation efficiency. Such antennas can be attractive for various high-frequency applications, such as antennas for the Internet of Things, smart city systems, 5G network systems, and others. The demonstrated concept can be scaled in frequency.

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Experimental demonstration of superdirective spherical dielectric antenna

Gaponenko¹,

Sidorenko²,

Zhirihin³

et al. 2022

Preprint

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Generation of nearly pure and highly directional magnetic light in fluorescence of rare earth ions

Utyushev¹,

Gaponenko²,

Sun³

et al. 2022

Preprint

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Excitation of a homogeneous dielectric sphere by a point electric dipole

Gaponenko

Rasskazov

Moroz³

et al. 2021

J. Phys.: Conf. Ser.

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Electrically small dielectric antennas are of great interest for modern technologies, since they can significantly reduce the physical size of electronic devices for processing and transmitting information. We investigate the influence of the resonance conditions of an electrically small dielectric spherical antenna with a high refractive index on its directivity and analyze the dependence of these resonances on the effectively excited modes of the dielectric sphere.

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Roman Gaponenko

Harnessing superdirectivity in dielectric spherical multilayer antennas

Experimental demonstration of superdirective spherical dielectric antenna

Experimental demonstration of superdirective spherical dielectric antenna

Generation of nearly pure and highly directional magnetic light in fluorescence of rare earth ions

Excitation of a homogeneous dielectric sphere by a point electric dipole

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