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 ide...
The design of a microstrip bull-eye antenna operating at microwave frequencies and excited by a sing...
The design of a microstrip bull-eye antenna operating at microwave frequencies and excited by a sing...
In this work, we propose an azimuthally-invariant periodic leaky-wave radiator for the generation of...
The possibility of generating a higher-order non-diffracting Bessel beam by means of a fast backward...
The possibility of generating a higher-order non-diffracting Bessel beam by means of a fast backward...
The possibility to generate a nondiffracting Bessel beam by means of a fast backward spatial harmoni...
International audienceThis chapter illustrates the capabilities of non-diffractive Bessel beams for ...
Near-field shaping is a topic of increasing interest due to a great number of diverse applications, ...
A radially periodic two-dimensional leaky-wave antenna is studied for the generation of zeroth-order...
A radially periodic 2-D leaky-wave (LW) antenna is studied for the generation of zeroth-order Bessel...
Bessel-Gauss beams have mainly been proposed in optics as a solution for reducing the on-axis intens...
In many antenna applications, such as near-field probing and imaging, focusing or collimating energy...
International audienceWe present the experimental generation of Bessel beams using a leaky radial wa...
International audienceIn this work, we propose an azimuthally-invariant periodic leaky-wave radiator...
The design of a microstrip bull-eye antenna operating at microwave frequencies and excited by a sing...
The design of a microstrip bull-eye antenna operating at microwave frequencies and excited by a sing...
In this work, we propose an azimuthally-invariant periodic leaky-wave radiator for the generation of...
The possibility of generating a higher-order non-diffracting Bessel beam by means of a fast backward...
The possibility of generating a higher-order non-diffracting Bessel beam by means of a fast backward...
The possibility to generate a nondiffracting Bessel beam by means of a fast backward spatial harmoni...
International audienceThis chapter illustrates the capabilities of non-diffractive Bessel beams for ...
Near-field shaping is a topic of increasing interest due to a great number of diverse applications, ...
A radially periodic two-dimensional leaky-wave antenna is studied for the generation of zeroth-order...
A radially periodic 2-D leaky-wave (LW) antenna is studied for the generation of zeroth-order Bessel...
Bessel-Gauss beams have mainly been proposed in optics as a solution for reducing the on-axis intens...
In many antenna applications, such as near-field probing and imaging, focusing or collimating energy...
International audienceWe present the experimental generation of Bessel beams using a leaky radial wa...
International audienceIn this work, we propose an azimuthally-invariant periodic leaky-wave radiator...
The design of a microstrip bull-eye antenna operating at microwave frequencies and excited by a sing...
The design of a microstrip bull-eye antenna operating at microwave frequencies and excited by a sing...
In this work, we propose an azimuthally-invariant periodic leaky-wave radiator for the generation of...