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Advanced Wave Engineering via Obliquely Illuminated Space-Time-Modulated Slab

Advanced Wave Engineering via Obliquely Illuminated Space-Time-Modulated Slab
Advanced Wave Engineering via Obliquely Illuminated Space-Time-Modulated Slab

This paper introduces an advanced wave engineering technique based on unidirectional frequency generation and spatial decomposition in general space-time-modulated (STM) slabs. The extraordinary wave engineering provided by such slabs is comprised of unidirectional wavefront shaping, nonreciprocal frequency generation, and spatial decomposition of ST harmonics (STHs). We first derive a rigorous analytical solution for the wave scattering from general ST permittivity-and permeability-modulated (STPPM) slabs. The analytical solution considers the most general form of spatiotemporal variation and wave incidence, i.e., oblique incidence and scattering from time-periodic spatially aperiodic/periodic STPPM slabs. The spatial aperiodicity may be utilized for further spectrum engineering and suppression of undesired STHs. Next, it will be shown that an equilibrated ST refractive-index-modulated slab with equal permittivity and permeability modulation strengths exhibits highly enhanced nonreciprocity. The FDTD numerical simulation of general STM slabs is presented, providing extra leverage for the analyses of wave propagation and scattering in such media. We show that oblique incidence to an STM slab yields nonreciprocal spatial decomposition of generated STHs. The explored peculiar properties of STM slabs under oblique incidence is expected to pave the way for the realization of new class of subharmonic generators, radars, illusion cloaks, and spatial mixers and isolators.

Permeability, permeability, refractive index, scattering, slab, space-time modulation (STM), wave engineering
0018-926X
270-281
Taravati, Sajjad
0026f25d-c919-4273-b956-8fe9795b31ce
Kishk, Ahmed A.
07e319d7-6a6d-4f10-9656-4cb11e63e25c
Taravati, Sajjad
0026f25d-c919-4273-b956-8fe9795b31ce
Kishk, Ahmed A.
07e319d7-6a6d-4f10-9656-4cb11e63e25c

Taravati, Sajjad and Kishk, Ahmed A. (2019) Advanced Wave Engineering via Obliquely Illuminated Space-Time-Modulated Slab. IEEE Transactions on Antennas and Propagation, 67 (1), 270-281, [8502085]. (doi:10.1109/TAP.2018.2877394).

Record type: Article

Abstract

This paper introduces an advanced wave engineering technique based on unidirectional frequency generation and spatial decomposition in general space-time-modulated (STM) slabs. The extraordinary wave engineering provided by such slabs is comprised of unidirectional wavefront shaping, nonreciprocal frequency generation, and spatial decomposition of ST harmonics (STHs). We first derive a rigorous analytical solution for the wave scattering from general ST permittivity-and permeability-modulated (STPPM) slabs. The analytical solution considers the most general form of spatiotemporal variation and wave incidence, i.e., oblique incidence and scattering from time-periodic spatially aperiodic/periodic STPPM slabs. The spatial aperiodicity may be utilized for further spectrum engineering and suppression of undesired STHs. Next, it will be shown that an equilibrated ST refractive-index-modulated slab with equal permittivity and permeability modulation strengths exhibits highly enhanced nonreciprocity. The FDTD numerical simulation of general STM slabs is presented, providing extra leverage for the analyses of wave propagation and scattering in such media. We show that oblique incidence to an STM slab yields nonreciprocal spatial decomposition of generated STHs. The explored peculiar properties of STM slabs under oblique incidence is expected to pave the way for the realization of new class of subharmonic generators, radars, illusion cloaks, and spatial mixers and isolators.

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More information

Published date: January 2019
Additional Information: Publisher Copyright: © 1963-2012 IEEE.
Keywords: Permeability, permeability, refractive index, scattering, slab, space-time modulation (STM), wave engineering
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Identifiers

Local EPrints ID: 482665
URI: http://eprints.soton.ac.uk/id/eprint/482665
DOI: doi:10.1109/TAP.2018.2877394
ISSN: 0018-926X
PURE UUID: d7a3d7bb-643b-45f7-89c3-7aa71f1a023f
ORCID for Sajjad Taravati: ORCID iD orcid.org/0000-0003-3992-0050

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Date deposited: 11 Oct 2023 16:50
Last modified: 02 May 2024 02:05

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Author: Sajjad Taravati ORCID iD
Author: Ahmed A. Kishk

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