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Simulation of Helical Modulation in a Focal Plane Array

Publication Type : Conference Paper

Publisher : ICCSP

Source : Communications and Signal Processing (ICCSP), 2014 International Conference on (2014)

Url :

ISBN : 9781479933570

Accession Number : 14737270

Keywords : angular momentum, antenna array, Antenna arrays, antenna radiation patterns, Arrays, Circular array, circular arrays, digital modulation, Focal Plane Array, focal planes, Geometry, helical modulation, Modulation, OAM, orbital angular momentum, parabolic antenna, Radiation pattern, Vorticity

Campus : Coimbatore

School : School of Engineering

Center : Computational Engineering and Networking

Department : Electronics and Communication

Verified : Yes

Year : 2014

Abstract : In various experiments it had been positively demonstrated that the ability to perform helical modulation, by exploiting the Orbital Angular Momentum (OAM) states of the electromagnetic (EM) waves, is a feasible scheme of digital modulation in the bandwidth-constrained regions of the spectrum. In this paper we shall show that by changing the EM properties to an antenna array, at the focal plane of a parabolic antenna (instead of changing the geometry of the entire aperture), a factor of vorticity can be introduced in the radio waves. The problem becomes relevant in cases where the antenna has larger radial dimensions. At the focal plane of the antenna phase changes are incorporated in the successive elements of the array. Circular arrays made up of discrete elements arranged in different configurations are being used in this exercise. Results from the different arrangements are compared in terms of antenna parameters, and the radiation patterns are obtained for various optimal representations of the OAM states.

Cite this Research Publication : , G., P. V., A., S. Devi, M., M. Kumar, S., V., and Dr. Shanmugha Sundaram G. A., “Simulation of Helical Modulation in a Focal Plane Array”, in Communications and Signal Processing (ICCSP), 2014 International Conference on, 2014.

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