Higher Symmetries and Its Application in Microwave Technology, Antennas and Metamaterials
Valerio, Guido
Higher Symmetries and Its Application in Microwave Technology, Antennas and Metamaterials - MDPI - Multidisciplinary Digital Publishing Institute 2019 - 1 electronic resource (98 p.)
Open Access
Artificial materials have been widely studied and used in photonics and microwaves in the last few decades. Recent research has proven that the introduction of specific higher symmetries in each cell of a periodic medium is an effective approach to obtain unprecedented exotic behaviors and to overcome the current limitations of these devices. For example, simple symmetries of a purely spatial type (glide or twist transformations) can have a huge impact on the properties of the resulting materials, thus defining wideband behaviors for flat lenses or large stop bands for novel EBG materials. This Special Issue opens with a novel discussion on the effect of time-reversal symmetries in antenna theory and presents new structures exploiting symmetries for antenna and microwave components, such as flat lenses, helix antennas, and gap-waveguides. Finally, new modeling methods are discussed for the study of wave propagation along glide surfaces and twist lines.
Creative Commons
English
books978-3-03921-877-6 9783039218776 9783039218769
10.3390/books978-3-03921-877-6 doi
stop-band higher symmetries lens antenna helix antennas stopband higher symmetry Time-reversal symmetry dispersion diagram periodic structures transmission matrix twist symmetry glide symmetry complementary split ring resonator (CSRR) complementary split-ring resonator Lorentz reciprocity gap waveguide technology microwave printed circuits single plane mode matching refractive index dispersion bed of nails Antennas dispersion analysis
Higher Symmetries and Its Application in Microwave Technology, Antennas and Metamaterials - MDPI - Multidisciplinary Digital Publishing Institute 2019 - 1 electronic resource (98 p.)
Open Access
Artificial materials have been widely studied and used in photonics and microwaves in the last few decades. Recent research has proven that the introduction of specific higher symmetries in each cell of a periodic medium is an effective approach to obtain unprecedented exotic behaviors and to overcome the current limitations of these devices. For example, simple symmetries of a purely spatial type (glide or twist transformations) can have a huge impact on the properties of the resulting materials, thus defining wideband behaviors for flat lenses or large stop bands for novel EBG materials. This Special Issue opens with a novel discussion on the effect of time-reversal symmetries in antenna theory and presents new structures exploiting symmetries for antenna and microwave components, such as flat lenses, helix antennas, and gap-waveguides. Finally, new modeling methods are discussed for the study of wave propagation along glide surfaces and twist lines.
Creative Commons
English
books978-3-03921-877-6 9783039218776 9783039218769
10.3390/books978-3-03921-877-6 doi
stop-band higher symmetries lens antenna helix antennas stopband higher symmetry Time-reversal symmetry dispersion diagram periodic structures transmission matrix twist symmetry glide symmetry complementary split ring resonator (CSRR) complementary split-ring resonator Lorentz reciprocity gap waveguide technology microwave printed circuits single plane mode matching refractive index dispersion bed of nails Antennas dispersion analysis