The possibility of generating a higher-order non-diffracting Bessel beam by means of a fast backward spatial harmonic is discussed in this work. The focusing features of the radiated near field are achieved by the excitation of a higher-xorder cylindrical leaky wave supported by an annular metal-strip grating placed on a grounded dielectric slab, which is excited by a circular arrangement of elementary sources. By properly phasing the array elements, the azimuth order of the radiated beam is controlled, offering the possibility of generating a focused beam of arbitrary order carrying a nonzero orbital angular momentum. Full-wave simulations of a prototype are developed using a commercial code and the field profiles are compared with the ideal beam supported by an infinite aperture.
Near-field focusing through higher-order cylindrical leaky waves / Comite, D.; Fuscaldo, W.; Burghignoli, P.; Baccarelli, P.; Galli, A.. - (2020), pp. 1-2. (Intervento presentato al convegno 14th European Conference on Antennas and Propagation, EuCAP 2020 tenutosi a Copenhagen - virtuale) [10.23919/EuCAP48036.2020.9135724].
Near-field focusing through higher-order cylindrical leaky waves
Comite D.;Fuscaldo W.;Burghignoli P.;Baccarelli P.;Galli A.
2020
Abstract
The possibility of generating a higher-order non-diffracting Bessel beam by means of a fast backward spatial harmonic is discussed in this work. The focusing features of the radiated near field are achieved by the excitation of a higher-xorder cylindrical leaky wave supported by an annular metal-strip grating placed on a grounded dielectric slab, which is excited by a circular arrangement of elementary sources. By properly phasing the array elements, the azimuth order of the radiated beam is controlled, offering the possibility of generating a focused beam of arbitrary order carrying a nonzero orbital angular momentum. Full-wave simulations of a prototype are developed using a commercial code and the field profiles are compared with the ideal beam supported by an infinite aperture.| File | Dimensione | Formato | |
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